Kontron User's Guide «
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1. i A 4 P9 P1 O gt P1 5 4 Po x8 42x12 P 4 1 pe z Crosspoint lt S P2 5 P E IOH36D 10 lt gt B3 12C P11j 4 x4 PCE 82576EB m k Dual 1Gb Eth 2 PEPE DMI e Controller aP P9 P4 k 8 P1 P5 12x12 84 1000 two x4 Crosspoint Switch PO P3 2 EE 4 82576 Dual 1Gb Eth Controller Dual or Dual 1000 Fo USBi 2 0583 4 C E SE ICH10R a IS Flash BIOS B B 2MB g opn z E P10 z Descriptor Flash E 2 s gt 8 0 2 LPC P20 B1 E AMCA 17 Mid size TPM P3 gt IPMC optional P2 P1 BAD PO T CLK 1 FPGA EE E SAS SATA 1 i 1 SPI COMT COMZ 4 gt 1000BASE BX 1 1 FW 10GBASE BX4 16Mb lt OTHERS 1 I 1 1 ERROR UE MEM epo m 1 9 8050 www kontron com 2 2 System2. 77 Table 4 36 Onboard Clock 4 78 Table 4 37 HPMcomponentIDs 82 Table 4 38 non HPM lt 82 Table 6 1 Temperature Sensors 105 118 Table 6 2 Pressure curve AT8050 with AMC 119 viii AT8050 www kontron com Safety Instructions Safety Instructions Before You Begin Before handling the board read the instructions and safety guidelines on the following pages to prevent damage to the product and to ensure your own personal safety Refer to the Advisories section in the Preface for advisory conventions used in this user s guide including the distinction between Warnings Cautions Important Notes and Notes Always use caution when handling operating the computer Only qualified experienced authorized electronics service personnel should access the interior of the computer The power supplies produce high voltages and energy hazards which can cause bodily harm Use extreme caution when installing or removing components Refer to the installation instructions in this user s guide for precautions and procedures If you have any questions please contact Kontron Technical
3. xiv Limited Warranty t rere ren erar mer n Il re 1 Product D scripton ss 5 554 en 2 1 1 555 2 5 55 5555 59 84 RESO 2 1 2 Whatslncluded 55205559 2 1 3 Board 5 3 1 4 556545 4 6 46 5 1 5 Hot Plug 5 1 6 Interfacing with the Environment 5 1 6 1 RTM rear transition 5 1 6 2 Advanced Mezzanine 7 2 Fedtires oin 9 2 1 5 5 44 5 5 44 eo 65 66 9 PENES rae ccr TT 10 2 2 1 PROCESSON E 10 2 2 2 Intel IOH 36D ERE AY Vu V PERA T EP YE ERE 10 2 2 3 IUH TOR o 40 des oriente
4. 35 3 5 1 Installing the Board in the 515 35 3 5 2 Removing the re rer Gand wae on EEEE EEE D n wees 35 3 5 3 Installingan 36 3 5 4 Removing 36 3 5 5 8050 36 3 5 6 Removing the RTM8050 36 iii AT8050 www kontron com Table of Contents 4 Hardware Management essor era tusacems tau e e 38 4 1 Hardware Management Overview 38 4 2 Hardware Management 38 4 2 1 IPMC Specific features y l ol eee a ee Saad ee EAE 38 4 2 2 ARR 39 4 0655 awaq awaqa EVES awaq AEREVREAAUCRAREEE A as Guss sS 40 4 3 1 Supported else re Lh hi 40 4 3 2 Sensor Data Records cae kde Od sqa Sean ERE ES QR awas 48 4 3 3 FRU Informations ciet x Gio whee ee SA RS AREA CH CIC 58 4 3 4 Clock E Keying Information
5. IUS 10 2 3 5 2 01 5 5 4 6 555 45 54 4 666 s a 11 2 4 USB Flash Module 12 ii AT8050 www kontron com Table of Contents 2 5 Serial ATA Serial Attached SCSI 12 2 5 1 Serial Attached SCSI LSISAS1064e is PCI e rev 1 1 12 P52 Sena LATA RC HIOR 13 2 6 Update Chan el u usss CR RR OO PE ER C REIR ne isa 13 2 7 RealTime Clock 8 NVRAM 13 2 8 Redundant BIOS 13 2 9 Ethernet 14 2 9 1 Fabric Interface 2524s ee ela cave ested dace ba wees 14 2 9 2 Base Interface 24 044 evel rer dad ea Doa 15 2 9 3 Management 1 15 2 9 4 Ethernet Interfaces Configuration 16 2 10 Serial Interfaces 1555 25 42 9 eh pce rh aa rh E orale 24 2 11 AMC Mezzarnirie 22 5 chr lir ES TET 24 2 12 FPGA
6. 34 6 1 Pressure Curve in Imperial 2 119 6 2 Pressure 1 120 6 3 CPU Thermal Profile 120 www kontron com vi AT8050 List of Tables List of Tables Table 1 1 Board 5 1 2 4 2 3 Table 2 1 USB 11 Table 2 2 Serial Interface connector 24 Table 2 3 Faceplate 2 27 Table 3 1 Jumper Description 30 Table 3 2 Approved Memory List 32 Table 3 3 Onboard Connectors and lt 34 Table 4 1 IPM Device Supported Commands for 40 Table 4 2 Watchdog Timer Supported Commands 40 Table 4 3 Device Messaging Supported Commands 40 Table 4 4 Chassis Device Supported Commands for IPMC 42 Table 4 5 Event Su
7. 75 4 3 5 Component Upgrade 82 5 Software SOUPS sace POP qa ERE EMEN qat ERE OF 5 1 AMIBIOS Setup 84 5 1 1 Accessing the BIOS Setup 84 5 1 2 Menu Bat 252r tr rra Rr E rr rr IE Ier 86 5 1 3 Main Meni qus UR Ro d wee o ORA HER eae ks 87 5 1 4 Advanced MENU se wasa CR OR qua wa seua CREER 88 5 1 5 eiui idee jae enn Shade ode tha ee oud betes 98 5 1 6 sns 99 5 1 7 System Management Menu 104 5 1 8 sua m 113 5 2 Boot UMUC ois icis vus ovx sus s s sa sus 113 5 2 1 Entering BIOS Setup 113 5 2 2 Boot Men POP UP asna Eh RR Re ERU CER CERO RON ER Rs 113 5 2 3 SAS Option ROM us susu hala 113 5 2 4 00 114 5 3 Console Redirection VT100 114 5 3 1 Requirements uu earna aqna ss agan PPS
8. E 1 Returning Defective E 1 E 2 When Returning a Unit cc ccc cece ccc cece cece cece hh th nnn E 2 hiis MM F 1 v AT8050 www kontron com List of Figures List of Figures Figure Figure Figure Figure Figure Figure Figure Figure Figure Figure Figure Figure Figure Figure Figure 2 1 BlockDiagram u a Re RR ERE RI ORI OEER ERI EI beaks EE 9 2 2 Available Ethernet Interfaces 5 16 2 3 10GbE and Management to Front 17 2 4 10GbE Managementto 18 2 5 10GbE Managementto RTM 19 2 6 AMC to Fabric Interface and Management to Front Panel 20 2 7 AMC to Fabric Interface and Management to 21 2 8 AMC to Fabric Interface and Management to RTM 22 2 9 Management to Fabric Interface 23 2 10 Faceplate LEDS Eee once dod dea ed anata ai 28 3 1 Jumper Settings and Locations 30 3 2 Onboard Connectors and Headers Locations
9. 59 Table 4 21 E Keying capabilities of the board 60 Table 4 22 AMC Carrier Activation and Carrier Information 61 Table4 23 Carer AMO E A 62 Table 4 24 Mapping between the devices and the corresponding Ids 62 Table 4 25 Record s content deer RIA RR A ene ted Ro dra RR e RC 62 Table 4 26 AMC connectivity details for Intel PCI Express Root Complex Port 3 66 Table 4 27 AMC connectivity details for Intel PCI Express Root Complex Port8 68 vii AT8050 www kontron com List of Tables Table 4 28 AMC connectivity details for Intel ICH10 SATA 70 Table 4 29 AMC connectivity details for Intel 82576EB NC front rear 71 Table 4 30 AMC connectivity details for Onboard Fabric Channel 1 Switch 72 Table 4 31 AMC connectivity details for Onboard Fabric Channel 2 Switch 73 Table 4 32 AMC connectivity details for FPGA Based UART 74 Table 4 33 Clock resources id assignment mapping 75 Table 4 34 Carrier Clock Point to Point Connectivity Record 75 Table 4 35 PCIe Clock
10. 85 95 5 0 C 10 C 85 C 95 C 105 C Temp Mngt Lan 5 C 0 C 10 C 90 C 100 C 110 C Temp BI Lan 5 0 C 10 C 90 C 100 C 110 C Temp FI Lan 5 C o c 10 C 90 C 100 C 110 C Temp IPMC 5 C 0 C 10 C 90 C 100 C 110 C Temp Bay Inlet 5 C 0 C 10 C 75 85 95 Temp DIMM 1 102 Channel 0 Dimmo 5 C 0 C 0 C 75 85 95 Temp DIMM 2 102 759 o o Channela Dimni 5 0 C 75 C 85 C 95 C Temp DIMM 3 102 Channeli 5 C 0 C 0 C 75 85 95 Temp DIMM 4 o o 109 75 SER 5 C 0 0 C 75 C 85 C 95 C Temp DIMM 5 102 Channel 2 Dimmo 5 C 0 C 0 C 75 85 95 Temp DIMM 6 o o 109 759 o o Channel 2 Dimmi 5 0 C 0 C 75 C 85 C 95 C 118 AT8050 www k n com Thermal Considerations 6 1 3 Airflow blockers Itis highly recommended to use airflow blockers ATCA slot and AMC airflow blocker in the AT8050 or any empty AMC slot to block any slot open to exterior air Failure to do so would go against forced air principles applied on ATCA components reducing system s cooling efficiency Moreover airflow blockers offer a higher impedance to forced air than typical board who tend to let more air into slots filled with AT8050 or other ATCA boards 6 1 4 System Airflow The airflow impedance pressure
11. Table 4 29 AMC connectivity details for Intel 82576EB front rear Record Type ID Record format version Record Length Record Checksum Header Checksum Manufacturer ID PICMG Record ID Record Format Version OEM GUID Count Record Type Connected device ID AMC Channel Descriptor Count AMC Channel Descriptor Reserved Bits 23 20 Lane 3 Port Number Bits 19 15 Lane 2 Port Number Bits 14 10 Lane 1 Port Number Bits 9 5 Lane 0 Port Number Bits 4 0 AMC Channel Descriptor Reserved Bits 23 20 Lane 3 Port Number Bits 19 15 Lane 2 Port Number Bits 14 10 Lane 1 Port Number Bits 9 5 Lane 0 Port Number Bits 4 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 Coh 02h Calculated Calculated Calculated 00315Ah 19h AMC Point To Point Connectivity Record 00h Oh O3h Carrier Device 3 gt Intel 82576EB NC front rear 02h FFFFEOh OFh 1Fh 1Fh 1Fh 00h FFFFE1h OFh 1Fh 1Fh 1Fh Oth FC00005104h 3Fh 00h Exact match 00h Single Channel Link 00h 1000 BaseBX 05h AMC 2 Ethernet 104h AMC Channel 4 Lan
12. 5 1 3 Main Menu BIOS Version 8 00 15 Displays the AMI BIOS version N A display only Build Date MM DD YY Display the BIOS build Date N A display only BIOS ID 5007 the BIOS ID this include the BIOS N A display only ersion FPGA Version X YY Display the FPGA Version N A display only System Memory XKB Displays amount system memory N A display only System Memory Speed XKB Displays speed of the system memory N A display only Memory Size Sub menu to display Confi Vocat N A Select sub menu memory configuration 9 of each DIMM System Time HH MM SS Setthe system time Use or to configure system time System Date MM DD YYYY Setthe system date Use or to y b configure system date 87 AT8050 www kontron com Software Setup S134 Memory Size Configuration menu Displays Channel 0 DIMM 0 memory size AT8050 DIMM electrically farthest to CPU filled first DIMMs within a channel must be Channel 0 DIMM 0 Memory Size KGE populated starting with the DIMMs farthest from the processor in a fill farthest approach Displays Channel 0 DIMM 1 memory size 0 XGB AT8050 DIMM electrically closest to CPU N A display only emory Size filled last Displays Channel 1 DIMM 0 memory size AT8050 DIMM electrically farthest to CPU Channel 1 DIMM 0 XGB filled first DIMMs within a channel must be N A display Memory Size populated starting with the DIMMs
13. Signal Path The front panel the on the RTM wits BIOS Settings MT Advanced Expansion ROM Configuration System Management gt E Keying Configuration 15 AT8050 www kontron com 2 9 4 Ethernet Interfaces Configuration Many Ethernet configurations are available with the crosspoint switch Below is a block diagram that shows all the supported crosspoint switch configurations Figure 2 2 Available Ethernet Interfaces Configurations GbE 10 GbE lt gt 10 GbE only lt GbE only Ports 0 1 Pons Possible Path Fabric Interface 82599EB 10 GbE Ch 1 amp 2 Possible Path MGNT 8257 6EB Base Interface BI 82576EB Paths are configurable in BIOS Note The AMC must be able to support GbE on ports 8 11 Connection from AMC to the Fabric Interface is either PICMG3 1 option 2 2x1GbE or PICMG3 1 option 1 1xGbE 16 AT8050 www kontron com 2 9 4 1 10GbE and Management to Front Panel Configuration Figure 2 3 10GbE and Management to Front Panel lt gt 10 GbE GbE Ports 0 1 82599EB 10 GbE MGNT 82576EB 15 82576 BIOS Settings Fabric Interface Channel 1 Fabric Interface Channel 2 Base Interface Channel 1 Base Interface Channel 2 1 System Management gt E Keying Configuration gt Management LAN Setting Front Panel 2 Sy
14. Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 2h 00h gt Carrier Device 0 Intel IOH PCI Express Root Complex Port 3 00e300h Oh 7h 3h 00h gt Carrier Device 0 Intel IOH PCI Express Root Complex Port 3 018102h Oh Ch th 02h gt Carrier Device 2 Intel ICH SATA Controller 01a006h Oh Dh Oh 06h gt Carrier Device 6 FPGA Based UART O1af85h Oh Dh Fh 85h gt AMC Site 5 AMC 1 4 3 3 4 AMC Point To Point Connectivity Information The following table gives AMC connectivity details for Intel IOH PCI Express Root Complex Port 3 On Carrier Device 0 Table 4 26 AMC connectivity details for Intel IOH PCI Express Root Complex Port 3 Record Type ID Coh Record format version 02h Record Length Calculated Record Checksum Calculated Header Checksum Calculated Manufacturer ID 00315Ah PICMG Record ID 19h AMC Point To Point Connectivity Record Record Format Version 00h 66 AT8050 www kontron com GUID Count Record Type Connected device ID AMC Channel Descriptor Count AMC Channel Descriptor Reserved Bits 23 20 Lane 3 Port Number Bits 19 15 Lane 2 Port Number Bits 14 10 Lane 1 Port Number Bits 9 5 Lane 0 Port Number Bits 4 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Mat
15. P Enabled ofthe No Snoop attribute value paei Auto 128 Bytes 256 This field sets the maximum Read Request size Set MERC Read ytes Request Size of PCI Maximum Read Request 512 Bvtes forthe Function as Requester The Function POS Size yt must not generate Read Requests with size P h 1024 Bytes exceeding the set value 2048 Bytes value 4096 Bytes When Enabled this bit forces the transmission of additional Ordered Sets when exiting the Auto LOs state and when in the Recovery state This allows generation of Extended Extended Synch Disabled mode provides external devices e g logic 5 ENE ER SUIS ynchronization Enabled analyzers monitoring the Link time to achieve ater bit and Symbol lock before the Link enters the LO state and resumes communication 95 AT8050 ron com Software Setup 514 7 USB Configuration sub menu FullSpeed Configures the USB 2 0 Controller in HiSpeed FullSpeed 12 Mbps USB 20 Cortrelller Mace HiSpeed 480Mbps or FullSpeed 12Mbps HiSpeed 480 Mbps A workaround for OSes without EHCI hand off Enabled EHCI hand off Enabled support can be enabled disabled The EHCI support enabled Disabled ownership change should be claimed by an Disabled EHCI hand off EHCI driver support disabled USB Mass Storage Device Configuration only Configure the USB Mass present if USB Mass Wa Selects sub menu Storage Class Devices Storage
16. Rxo 14 N C Rxo 14 N C Tx1 14 N C Tx14 14 N C Tx2 43 N C Tx2 13 N C Rx2 13 N C Rx2 13 N C Tx3 13 4 N C Tx3 13 N C 10 TxO 13 N C TxO 43 N C RxO 13 N C RxO 43 N C Tx1 13 4 N C Tx4 13 N C ROW G ROW H ROW AB ROW CD ROW EF ROW GH GND GND GND GND O W 1 CLK2B CLK2B 2 CLK3B CLK3B GND GND GND GND 3 Rx3 UP Rx3 UP GND GND GND GND 4 Rx1 UP Rx1 UP GND GND GND GND 5 Rx3 15 N C Rx3 15 N C GND GND GND GND 6 Rx1 15 N C Rx1 15 N C GND GND GND GND 7 Rx3 14 N C RG 14 N C GND GND GND GND 8 Rx1 14 N C Rx1 14 N C GND GND GND 9 Rx3 13 N C RG 13 N C GND GND GND GND 10 Rx1 13 N C Rx1 13 N C GND GND GND GND B 8 USB Flash Drive J22 ii ee 1 6 N C 2 7 GND USB_DATA 3 8 N C N C 4 9 USB_DATA 5 10 RSV B 4 AT8050 www kontron com B 9 Base Interface amp Fabric Intercface 723 1 Tx2 2 Tx2 2 Rx2 2 Rx2 2 3 2 Tx3 2 2 2 2 2 Rxo 2 Tx1 2 Tx1 2 3 Tx2 1 Tx2 1 Rx2 1 Rx2 1 Tx3 1 Tx3 1 4 1 Txo 1 RxO 1 Rxo 1 Tx1 1 Tx1 1 5 BI_DA1 BI_DA1 BI_DB1 BI_DB1 BI_DC1 BI_DC1 6 BI_DA2 DI_DA2 BI_DB2 BI_DB2 DI DC24 BI DC2 7 N C N C N C N C N C N C 8 N C N C N C N C N C N C 9 N C N C N C N C N C N C 10 N C N C N C N C N C N C 1 Rx3 2 Rx3 2
17. 03h Digital Discrete offset 0 1 are used see table Sensor type code CBh Kontron OEM FRU Overcurrent for sensor definition 87 FRU Over Icc Discrete FRU Error during external FRU Sensor discovery Sensor type CCh Kontron OEM FRU sensor error Event Reading type code 03h Digital Discrete offset 0 1 are used see OEM table Sensor type code CCh Kontron OEM FRU sensor error for sensor definition FRU Power Denial Detection Sensor type OEM Kontron FRU Power denied Event Reading type code 03h Digital Discrete offset 0 1 are used see table Sensor type code CDh Kontron OEM FRU Power Denied for sensor definition 88 FRU Sensor Error Discrete 89 FRU Pwr Denied Discrete FRU Management Power Fail Sensor type D2h Kontron FRU Management Power Fail Event Reading type code 03h Digital Discrete offset 0 1 are used 90 FRU MngtPwr Fail Discrete see OEM table Sensor type code D2h Kontron OEM FRU Management Power Fail for sensor definition FRU Information Agent FRUO Data Error Detection Sensor type 5h Kontron FRU Info Agent Event Reading type code 0Ah Generic Discrete offset 6 8 are used see OEM table Sensor type code C5h Kontron OEM FRU Information Agent for sensor definition FRU Information Agent FRU1 Data Error Detection Sensor type 5h Kontron FRU Info Agent Event Reading type code 0Ah Generic Discrete offset 6 8 are used see OEM table Sensor
18. 114 5 3 2 ANSIand VT100 Keystroke 114 5 3 3 VT UTF8 Keystroke 115 6 Thermal 5 117 6 1 Thermal Monitoring ehh n rhe e s s rna pus 117 6 1 1 Heat SINKS nita cee ates oe ented tum Scenes aq eet Rat 117 6 1 2 Temperature Sensors 117 6 1 3 Airflow blockers zs nd cae RI RS a usual us pasa Qa 119 6 1 4 System Allow sis eee eee ee eae ee ade ae 119 6 15 Thermal Profile J cmn em od Goad tae he rmm eet eo a ieee es 120 iv AT8050 www kontron com Table of Contents Memory amp I 0Maps A 1 A 1 1 1 0 sess sess sess 2 PCIIDSELand Device 3 AG errem 5 Connector PInOU s sat e B 1 Connectors and Headers B
19. 3 kontron Document Revision 1 5 January 2014 Revision History 1 0 First Release April 2009 Second Release November 2009 1 2 Third Release April 2010 13 Fourth Release September 2011 1 4 Fifth Release October 2013 1 5 Sixth Release January 2014 Customer Service Contact Information Kontron Canada Inc Kontron Modular Computer GMBH 4555 Ambroise Lafortune Sudetenstrasse 7 Boisbriand Qu bec Canada 87600 Kaufbeuren J7H 0A4 Germany Tel 450 437 5682 449 0 8341 803 333 800 354 4223 Fax 450 437 8053 49 0 8341 803 339 E mail support ca kontron com support kom kontron com Visit our site at www kontron com 2011 Kontron an International Corporation All rights reserved The information in this user s guide is provided for reference only Kontron does not assume any Liability arising out of the application or use of the information or products described herein This user s guide may contain or reference information and products protected by copyrights or patents and does not convey any license under the patent rights of Kontron nor the rights of others Kontron is a registered trademark of Kontron All trademarks registered trademarks and trade names used in this user s guide are the property of their respective owners All rights reserved Printed in Canada This user s guide contains information proprietary to Kontron Customers may reprint and use this user s guide i
20. Intel Corporation DMA Engine rev 10 Intel Corporation DMA Engine rev 10 Intel Corporation DMA Engine rev 10 Intel Corporation DMA Engine rev 10 Intel Corporation DMA Engine rev 10 Intel Corporation DMA Engine rev 10 Intel Corporation DMA Engine rev 10 Intel Corporation ICH10 USB UHCI Controller 1 Intel Corporation ICH10 USB UHCI Controller 2 Intel Corporation ICH10 USB UHCI Controller 3 ICH ICH ICH A 3 AT8050 ron com 8086 Intel Corporation ICH10 USB2 EHCI Controller 1 00 1e 8086 244e 0 Intel Corporation 82801 PCI Bridge rev 90 ICH 00 1f 8086 3a16 0 Intel Corporation ICH10 LPC Interface Controller ICH 00 1f 8086 3a22 2 Intel Corporation ICH10 6 port SATA AHCI Controller ICH 00 1f 8086 3a30 3 Intel Corporation ICH10 SMBus Controller ICH 02 00 8086 10c9 0 Intel Corporation 82576 Gigabit Network Connection 1E2576 On Bese Interface 02 00 8086 10c9 0 Intel Corporation 82576 Gigabit Network Connection LEZEC Om SEE Interface 03 00 8086 10d8 0 Intel Corporation 82599 Gigabit Network Connection IS Interface 03 00 8086 10d8 1 Intel Corporation 82599 Gigabit Network Connection Interface 04 00 8086 10c9 0 Intel Corporation 82576 Gigabit Network Connectio
21. NetFn IPMI BMC req ic au Kontron support on IPMC PEF and Alerting Commands Get PEF Capabilities 30 1 S E 10h M M No Arm PEF PostponeTimer 30 2 S E 11h M M No Set PEF Configuration 30 3 S E 12h M M No Get PEF Configuration Parameters 30 4 S E 13h M M No Last Processed Event 30 5 S E 14h M M No a Last Processed Event 30 6 S E 15h M M No Alert Immediate 30 7 S E 16h 0 0 No PET Acknowledge 30 8 S E 17h 0 0 No Table 4 7 Sensor Device Supported Commands for IPMC IPMISpec section NetFn IPMI BMC req A IPMC Kontron support on IPMC Sensor Device Commands Get Device SDR Info 35 2 S E 20h 0 M Yes Get Device SDR 35 3 S E 21h 0 M Yes ie DR 35 4 S E 22h O M Yes 35 5 S E 29h 0 M No Set Sensor Hysteresis 35 6 S E 24h 0 0 Yes Get Sensor Hysteresis 35 7 S E 25h 0 0 Yes Set Sensor Threshold 35 8 S E 26h 0 0 Yes Get Sensor Threshold 35 9 S E 27h 0 0 Yes SetSensorEventEnable 35 10 S E 28h 0 0 Yes GetSensorEventEnable 35 11 S E 29h 0 0 Yes Re arm Sensor Events 35 12 S E 2Ah 0 0 No Get Sensor Event Status 35 13 S E 2Bh 0 0 No Get Sensor Reading 35 14 S E 2Dh M M Yes Set Sensor Type 35 15 S E 2Eh 0 0 No Get Sensor Type 35 16 S E 2Fh 0 0 No 43 AT8050 tron com Table 4 8 FRU Device Supported Commands for IPMC IPMISpec section NetFn IPMI BMC req Kontron support on IPMC FRU Device Commands Get FRU Inventory Area Info 34 1 Storage 10h M M Yes Read FRU Data 34 2 Storage 11h M M Yes Write FRU Data 3
22. Ports 9 11 Fabric Interface Channel 1 82599EB 10 GbE Fabric Interface Channel 2 MGNT 82576EB Base Interface Channel 1 Base Interface Channel 2 BI 82576EB Note The AMC must be able to support GbE on ports 8 11 Connection from AMC to the Fabric Interface is either PICMG3 1 option 2 2x1GbE or PICMG3 1 option 1 1xGbE ii BIOS Settings 90101 1 System Management gt OEM E Keying Configuration gt Management LAN Setting RTM 2 System Management gt OEM E Keying Configuration gt AMC P8 11 Setting Fabric Interface In this configuration it is not possible to boot from the Fabric Interface 22 AT8050 www kontron com 2 9 4 7 Management to Fabric Interface Configuration Figure 2 9 Management to Fabric Interface Ports 9 11 Fabric Interface Channel 1 82599EB 10 GbE Fabric Interface Channel 2 Channel 1 MGNT 82576EB Base Interface Base Interface Channel 2 BI 82576EB ii BIOS Settings 10101 1 System Management gt E Keying Configuration gt Management LAN Setting Fabric Interface System Management OEM E Keying Configuration AMC P8 11 Setting Disabled 23 AT8050 www kontron com 2 10 Serial Interfaces The AT8050 uses serial interfaces to manage the CPU Since no video interface is provided on board the only way to get visual information on the board is the serial console Serial ports are provided on the fa
23. Record format version 02h Record Length Calculated Record Checksum Calculated Header Checksum Calculated Manufacturer ID 00315Ah PICMG Record ID PICMG Record ID 2D Clock Configuration Record Record Format Version 00h cote eats Clock Configuration Descriptor Count Ox0A Clock Configuration Descriptors Clock Id 0x00 Receiver input from CLK1A Clock Control 0x01 7 10h reserved 0 1b Activated by Application Indirect Clock Descriptors Count m 0x02 Direct Clock Descriptors Count n 0x00 Indirect clock Descriptor 7 2 Oh reserved 1 1b Connected through PLL 0 Ob Features Onde Clock Receiver Dependent ClockId 6 0 02 1 1b Connected through 0 06 Dependent ClockId 7 Direct clock Descriptor none Clock Id 0x01 Receiver input from CLK1B Clock Control 0x01 7 10h reserved 0 1b Activated by Application Indirect Clock Descriptors Count m 0x02 Direct Clock Descriptors Count n 0x00 Indirect clock Descriptor 7 2 Oh reserved 1 1b Connected through PLL 0 Ob Features 0x0 Clock Receiver 78 AT8050 tron com Dependent ClockId Features Dependent ClockId Direct clock Descriptor Clock Id Clock Control Indirect Clock Descriptors Count m Direct Clock Descriptors Count n Indirect clock Descriptor Features Dependent ClockId Features Dependent ClockId Direct clock Descriptor Clock Id Clock Control Indirect Clock Descriptors Count m Di
24. Event 53 DIMM 2 SPD Pres Discrete Reading type code 6Fh Sensor specific only offset 0 1 are used see IPMI v1 5 table 36 3 Sensor type code 25h Entity Presence for sensor definition DIMM 3 Temperature Sensor Presence Sensor type 25h Entity Presence Event 54 DIMM 3 SPD Pres Discrete Reading type code 6Fh Sensor specific only offset 0 1 are used see IPMI v1 5 table 36 3 Sensor type code 25h Entity Presence for sensor definition 52 AT8050 tron com DIMM 4 Temperature Sensor Presence Sensor type 25h Entity Presence Event 55 DIMM 4 SPD Pres Discrete Reading type code 6Fh Sensor specific only offset 0 1 are used see IPMI v1 5 table 36 3 Sensor type code 25h Entity Presence for sensor definition DIMM 5 Temperature Sensor Presence Sensor type 25h Entity Presence Event 56 DIMM 5 SPD Pres Discrete Reading type code 6Fh Sensor specific only offset 0 1 are used see IPMI v1 5 table 36 3 Sensor type code 25h Entity Presence for sensor definition DIMM 6 Temperature Sensor Presence Sensor type 25h Entity Presence Event 57 DIMM 6 SPD Pres Discrete Reading type code 6Fh Sensor specific only offset 0 1 are used see IPMI v1 5 table 36 3 Sensor type code 25h Entity Presence for sensor definition Fuse presence and fault detection 48 V on supply A Sensor type 08h Power 58 Fuse Pres A Feed Discrete Supply Event Reading type code 6Fh Sensor specific only offset 0 1 are used see IPMI v1 5 table 36 3
25. curve gives multiple information and tips about thermal operational range of the system carrying the AT8050 Once volumetric airflow capability of your chassis is known the PQ curve can help determine the ambient room temperature setpoint that should be used for optimal operation If you are using various models of ATCA blades into the same chassis it is possible to find the best thermal fit Having the volumetric airflow value for each chassis slot is it then possible to decide the layout using the pressure curves Table 6 2 Pressure curve AT8050 with AMC Filler Test Poin Airflow CFM Pressure drop Airflow m3 h Pressure Drop in H20 Pa 1 12 04 0 038 20 46 9 57 2 15 03 0 048 25 54 12 02 3 21 02 0 069 34 00 17 28 4 25 00 0 100 42 48 24 91 5 30 01 0 142 50 99 35 26 6 35 02 0 195 59 50 48 61 7 40 02 0 257 68 00 64 07 8 45 06 0 321 76 55 79 95 9 50 01 0 381 84 97 95 00 Figure 6 1 Pressure Curve in Imperial 0 42 0 37 0 32 0 27 0 22 0 17 0 12 0 07 0 02 10 00 15 00 20 00 25 00 30 00 35 00 40 00 45 00 50 00 55 00 Airflow CFM Pressure Inch H20 119 AT8050 www kontron com Thermal Considerations Figure 6 2 Pressure Curve in Metric 104 0 94 0 84 0 74 0 64 0 54 0 44 0 34 0 24 0 14 0 4 0 15 00 25 00 35 00 45 00 55 00 65 00 75 00 85 00 95 00 Airflow m3 h Pressure Pa 6 1 5 Thermal Profile Itis important to follow the thermal profile to make
26. lt More details about the jumper settings can be found the Quick Reference Sheet w 0 AT8050 ntron com 3 2 Processor This product ships with the CPUs and a thermal solution installed The thermal solution is custom and critical for passive cooling Cooling performance can greatly be affected if manipulation is not handled within Kontron facility Do not attempt any heat sink removal 3 3 Memory The AT8050 has 3 memory channels connected to the main CPU There are 2 DIMMs per memory channels for a total of 6 The AT8050 accepts DDR3 VLP very low profile 0 72 inch 18 29mm 1 5V typical registered ECC x4 or x8 memory with up to 4 ranks per DIMM The DDR3 memory channels run at 1066MHz with the 60W Nehalem A minimum memory size of 2 Gbyte is supported using a single DIMM The maximum DDR3 SDRAM size is 8GBytes per DIMM for a populated 48GBytes maximum Memory modules shall have a validated thermal solution heatsink and may necessitate a certain class of chassis It is recommended that modules have thermal sensors for accurate temperature monitoring and to throttle the memory interface in case of overheating Memory can perform double refresh rate to get higher maximum operating temperature The content of the SDRAM is not affected by a warm reset Always populate DIMMO J14 J16 amp J18 first then DIMM1 J13 J15 amp J17 on each channel Only use validated memory with this product Therma
27. used when configuring the channel and for routing messages between channels Channels 01 and 02 on Base interface are available The channel number assignments are described in IPMI Specification 2 0 table 6 1 Display Valid if IPMC support LAN Channel Select whether IP Address is set static or retreive using DHCP Display the current Subnet Mask configuration stored in IPMI NVRAM for IPMI LAN This allows setting of a Subnet Mask for LAN configuration when IP Address Source is set to static This option is hiden when DHCP source is selected N A display only Enter Channel Number for SET LAN Config Command Proper value 01 or 02 N A display only N A display only N A display only Enter Channel Number for SET LAN Config Command Proper value 01 or 02 N A display only Select IP Address Source Static or DHCP N A display only Enter Subnet Mask in decimal in the form of XXX less than 256 and in decimal only 106 AT8050 on com Software Setup 5 7 7 0 LAN Parameter Selector Channel Number Channel Status IP Address Source Current Gateway Address Gateway Address 5 1 7 7 LAN Parameter Selector Channel Number Channel Status 802 1q VLAN ID Value Current 802 1q VLAN ID Value Support VLAN Tagged Packets VLAN Tagged Packets Status Gateway Address Configuration sub menu 12 01 or 02 Valid or Inv
28. 05h TelClock5 Clock Events amp Alarm IPMC only Read LOCKE FAIL1E FAILOE SELREFE 0 Write Clear Clear Clear Clear NU NU NU NU Reset X NA NA NA NA LACKE FAIL1E FAILOE SELREFE D Same as FAILO but for the lock status of the PLL This bit captures the unlock state This would typically be used to generate an alarm Same as FAILO but for reference 1 This bit captures the assertion of a failure on reference 0 on the PLL This is basically a short failure detection that the IPMC would otherwise miss Use Telco 1 to read the current state To Clear this bit write a 1 in it The bit will be cleared even if there is still a fauld on this clock Same as FAILO but for the selected reference This bit goes to one everytime the selected reference changes This is just to inform the software that a reference change occured Note unpredictable need to be cleared by IPMC on power up Events and alarms are implemented in the FPGA The FPGA build them using the raw signals from the first three registers Note that this register is only available on the IPMC side of the interface www k n com A 10 AT8050 B Connector Pinouts B 1 Connectors and Headers Summary J2 PostCodes J5 AMC J8 Ethernet Port 0 J9 Ethernet Port 1 J10 USB 2x Stacked J12 Serial Port COM1 J20 Synchronisation Clocks Update Channel J22 USB Flash Drive J23 Base Interface amp Fabric Intercface J30 RTM P10 P
29. 1 B 2 PostCodes 8 S e secie E ER UE ES ES B 1 B 3 P Ed E Ed B 2 Ethernet J8 449 3 B 5 HSBPOFE IIO B 3 6 SerialPort COM1 J12 iuis sosre ks RE RERENAEPARRERRKE EE REXAFE QE VERA dde RS B 3 B 7 Synchronisation Clocks Update Channel J20 B 4 B 8 USB Flash Drive J22 i e E e a sess cae E E ors sroti ocr shost ects n essees B 4 B 9 Base Interface amp Fabric Intercface 223 B 5 B 10 RTM Collector J30 RE HA EE dane Ed eS dene B 6 B 11 10 dees se sis gQ B 7 C BIOS Setup Error Codes sc ccciicvasiessesandvanwcevisesesseosteseeesecneeasl l C 1 Bootblock Initialization Code C 1 C2 POST Code Checkpoints E ER eee intei iess C 2 C 3 DIM Code Checkpoints 5 5050 ku RE RRRERKEAYEYRCRKEREFZA ECSHNESENFRVRREN CORRER TAN C 4 C4 Memory Initialization ERROR Code C 5 D Software Update oves a eiu erres RR ER ER ERA ua rece deca Dal E
30. 1b Connected through PLL 0 1b Clock Source 7 2 Oh reserved 1 1b Connected through PLL 0 1b Clock Source 7 2 Oh reserved 1 1b Connected through PLL 0 1b Clock Source 7 2 Oh reserved 1 1b Connected through PLL 0 1b Clock Source none 80 AT8050 www kontron com Clock Id Clock Control Indirect Clock Descriptors Count m Direct Clock Descriptors Count n Indirect clock Descriptor Features Dependent ClockId Features Dependent ClockId Direct clock Descriptor Clock Id Clock Control Indirect Clock Descriptors Count m Direct Clock Descriptors Count n Indirect clock Descriptor Features Dependent ClockId Features Dependent ClockId Direct clock Descriptor 0x08 0x01 0x02 0x00 0x02 0x02 0x09 0x01 0x02 0x00 0x02 0x02 Receiver input from TCLKB 7 10h reserved 0 1b Activated by Application 7 2 Oh reserved 1 1b Connected through PLL 0 0b Clock Receiver 4 7 2 Oh reserved 1 1b Connected through PLL 0 06 Clock Receiver none Receiver input from TCLKD 7 10h reserved 0 1b Activated by Application 7 2 Oh reserved 1 1b Connected through PLL 0 0b Clock Receiver 7 2 Oh reserved 1 1b Connected through PLL 0 Ob Clock Receiver none AT8050 ntron com 4 3 5 Component Upgrade Support Many components can be updated through the IPMC Most of them IPMC itself FPGA and BIOS are u
31. Configuration 4 Software Usage To access the SAS BIOS press CTRL C when the board boots You can also access the SAS controller by using the LSI Util Linux Tool 4 Software Usage AMC serial port is available on port 15 AMC serial port GUID 471C5D14 2AE7 42B9 A9B0 0628546BA42CC Signal Path To use the SAS interface an RTM8050 must be installed Note The maximum power budget is 50W for an Advanced Mezzanane Card 25 AT8050 www kontron com 2 12 FPGA The FPGA has many functions One of them is to act as a companion chip to the IPMC The states of all the critical signals controlled by the IPMC are memorized in the FPGA and are preserved while the IPMC firmware is being updated The FPGA is a RAM based chip that is preloaded from a separate flash memory at power up Two such flash memory devices are provided one that can only be programmed in factory and the other one that can be updated in the field The factory flash is selected by inserting jumper JP1 pins 3 4 Field updates require to cycle the power of the board The IPMI LED2 will blink if the factory flash is being used The FPGA update complies to PICMG HPM 1 specification and is remotely updatable via any IPMC channel 2 13 Telecom Clock Option The telecom clock option is not shown on the main block diagram The circuit is made of MLVDS buffers a PLD and a multi service line card PLL The PLD is hooked to the main FPGA with a fast serial link and
32. Designator Bits 11 0 Link Descriptor Link Grouping ID Bits 31 24 Link Type Extension Bits 23 20 Link Type Bits 19 12 Link Designator Bits 11 0 Link Descriptor Link Grouping ID Bits 31 24 Link Type Extension Bits 23 20 Link Type Bits 19 12 Link Designator Bits 11 0 Link Descriptor Link Grouping ID Bits 31 24 Link Type Extension Bits 23 20 Link Type Bits 19 12 Link Designator Bits 11 0 4 3 3 2 02h PICMG 3 1 Ethernet Fabric Interface F42h Fabric Interface Channel 2 Port 0 1 2 3 00002342h Oh Single Channel link Oh Fixed 1000Base BX 02h PICMG 3 1 Ethernet Fabric Interface 3421 Fabric Interface Channel 2 Port 0 1 00002142h Oh Single Channel link Oh Fixed 1000Base BX 02h PICMG 3 1 Ethernet Fabric Interface 142h Fabric Interface Channel 2 Port 0 000F0181h Oh Single Channel link Oh None FOh PCIe x4 CLK Update Channel 181h Update Channel Interface 1 Port 0 all ten pairs AMC Carrier Activation and Carrier Information Table The AMC slot power budget is included in the following table Table 4 22 AMC Carrier Activation and Carrier Information Table Record Type ID Coh Record format version 02h Record Length Calculated Record Checksum Calculated Header Checksum Calculated Manufacturer ID 00315Ah PICMG Record ID Carrier Activation And Current Management Record Format Version 00h Maximum Internal Current 29h 4 1 2 12 V g
33. Device controller Displays IPMI firmware version Displays SDR Sensor Data Record revision This field correspond to the implementation specific auxiliary information from IPMI Get Device ID Command byte 13 The SDR revision is displayed in decimal notation Displays Maintenance revision This field correspond to the implementation specific auxiliary information from IPMI Get Device ID Command byte 15 The byte is displayed as a 2 digit hexadecimal number Displays implementation specific auxiliary information from IPMI Get Device ID Command byte 13 The byte is displayed as a 2 digit hexadecimal number Displays implementation specific auxiliary information from IPMI Get Device ID Command byte 14 The byte is displayed as 2 digit hexadecimal number Displays implementation specific auxiliary information from IPMI Get Device ID Command byte 15 The byte is displayed as a 2 digit hexadecimal number Displays implementation specific auxiliary information from IPMI Get Device ID Command byte 16 The byte is displayed as a 2 digit hexadecimal number N A display only N A display only N A display only N A display only N A display only N A display only N A display only N A display only N A display only N A display only 110 AT8050 on com Software Setup 5 1 7 20 PCI Express SSC Setting PCI Express SSC State Upd Channel Override
34. Feed 65 Power Good 66 Power Good Event 67 Board Reset 70 POST Error 71 Critical Int 72 73 CMOS Mem Size 74 CMOS Passwd 57 AT8050 tron com 75 CPU Status 76 Bios Flash 0 77 Bios Flash 1 79 IPMI Watchdog 4 3 3 FRU Information Table 4 19 Board Information Area Board Information Area Field Description Value hex Format Version 0x01 Board Area Length Calculated Language code 0x19 Manufacturing Date Based on mfg date Time Board Manufacturer type length Calculated Board Manufacturer KONTRON Board Name type length Calculated Board Name 8050 Board Serial Number E type length Calculated Board Serial Number 10 digits serial number Board Part Number Calculated type length T5007AA _R ZZZZZ Board Part Number R Board revision Z config 00000 No DDR3 00001 12GB DDR3 FRU File ID type length Calculated FRU5007 XX XX template version No more fields OxC1 Padding None Board Area Checksum Calculated 58 AT8050 www kontron com Table 4 20 Product Information Area Product Information Area Field Description Value hex Format Version 0x01 Product Area Length Calculated Language code 0x19 Product Manufacturer type length Calculated Product Manufacturer KONTRON Product Name type Calculated length Product Name AT8050 Product Part Number 5 type length Calculated 5007 R ZZZZZ Product Part Numbe
35. Hub to ESI Port rev 10 Intel Corporation QuickPath Architecture 1 0 Hub PCI Express Root Port 1 rev 10 Intel Corporation QuickPath Architecture 1 0 Hub PCI Express Root Port 3 rev 10 Intel Corporation QuickPath Architecture 1 0 Hub PCI Express Root Port 4 rev 10 Intel Corporation QuickPath Architecture 1 0 Hub PCI Express Root Port 5 rev 10 Intel Corporation QuickPath Architecture 1 0 Hub PCI Express Root Port 7 rev 10 Intel Corporation QuickPath Architecture 1 0 Hub PCI Express Root Port 8 rev 10 Intel Corporation QuickPath Architecture 1 0 Hub PCI Express Root Port 9 rev 10 Intel Corporation QuickPath Architecture 1 0 Hub PCI Express Root Port 10 rev 10 Intel Corporation QuickPath Interconnect Physical and Link Layer Registers Port 0 rev 10 Intel Corporation QuickPath Interconnect Routing and Protocol Layer Registers Port 0 rev 10 Intel Corporation QuickPath Interconnect Physical and Link Layer Registers Port 1 rev 10 Intel Corporation QuickPath Interconnect Routing and Protocol Layer Registers Port 1 rev 10 Intel Corporation QuickPath Architecture 1 0 Hub System Management Registers rev 10 Intel Corporation QuickPath Architecture 1 0 Hub GPIO and Scratch Pad Registers rev 10 Intel Corporation QuickPath Architecture 1 0 Hub Control Status and RAS Registers rev 10 Intel Corporation QuickPath Architecture 1 0 Hub Throttle Registers rev 10 Intel Corporation DMA Engine rev 10
36. N C RING A N C 1 RING N C RRTN A N C SHELF GND ENABLE B VRTN_B EARLY_B 48V A 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 99 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 N P HA1 HA3 HA5 HA7 P SDA_A SDA_B MT2_TIP N C RING_B N C MT2_RING N C RRTN_B N C LOGIC_GND VRTN_A EARLY_A ENABLE_A 48V B B 7 AT8050 www kontron com C BIOS Setup Error Codes C 1 Bootblock Initialization Code Checkpoints The Bootblock initialization code sets up the chipset memory and other components before system memory is available The following table describes the type of checkpoints that may occur during the bootblock initialization portion of the BIOS Before D1 01 00 02 03 04 05 06 07 08 09 E1 E8 EC EE Early chipset initialization is done Early super 1 0 initialization is done including RTC and keyboard controller NMI is disabled Perform keyboard controller BATtest Check if waiking up from power management suspend state Save power on CPUID value in scratch CMOS Go to flat mode with 4GB limit and GA20 enabled Verify the bootblock checksum Disable CACHE before memory detection Execute full memory sizing module Verify that flat mode is enabled If memory sizing module not executed start memory refresh and do memory sizing in Bootblock code Do additional chipset initialization Re enable CACHE Verify
37. PT 26 2 13 Telecom Clock Option ek ee hme hh px hs tn 26 2 14 Redundant IPMC Firmware amp 26 2 15 LEDS Descriptio ese ae a E ene 27 2 15 1 HotSwap LED LEDO 1 5 wd pa ERR Wishing eR ER RR M be RIPE RES TEE 27 2 15 2 OutOfServic 1 7 27 2 15 3 Healthy LED LED2 27 3 the Board kei E RA o4 ER Re oa BO 3 1 SettingJumpers 66 60 6 ER EE S TS 30 3 1 1 Jumper Description 30 3 1 2 Setting Jumper amp 1 30 3 2 TPVOC SSON WC RE RI ro rd 26 5 31 3 3 Memory eeu wi UNTER WS RIS 31 3 3 1 Memory List lt 32 3 3 2 Installing Memory a sy sl sl edle ede m exer rox ee ex Sheen 33 3 4 Onboard Connectors and 34 3 5 Board Hot Swap and Installation
38. Payload Instance Info i 24 5 App 4Bh Yes Set User Payload Access 24 6 App 4Ch Yes Get User Payload Access 24 7 App 4Dh Yes Get Channel Payload Support 24 8 App 4Eh Yes Get Channel Payload Version 24 9 App 4Fh Yes Get Channel OEM Payload Info 24 10 App 50h No Master Write Read 22 11 App 52h Yes 41 8050 tron com IPMISpec section NetFn IPMI BMC req Kontron support on IPMC Hee E 22 15 24 3 App 55h Yes Security 22 25 App 56h Yes ue 229 App 57h Yes Table 4 4 Chassis Device Supported Commands for IPMC on IPMC Chassis Device Commands Get Chassis Capabilities 28 1 Chassis 00h M 0 Yes Get Chassis Status 28 2 Chassis 01h 0 M 0 Yes Chassis Control 28 3 Chassis 02h 0 M 0 Yes Chassis Reset 28 4 Chassis 03h 0 0 No Chassis Identify 28 5 Chassis 04h 0 0 No Set Chassis Capabilities 28 7 Chassis 05h 0 0 No Set Power Restore Policy 28 8 Chassis 06h 0 0 No 28 11 Chassis 07h 0 0 No Set System Boot Options 28 12 Chassis 08h Yes Get System Boot Options 28 13 Chassis 09h Yes Get POH Counter 22 12 Chassis OFh 0 0 No Table 4 5 Event Supported Commands for IPMC Spec section NetFn CMD IPMI BMC req Carrier IPMC Kontron support req on IPMC Event Commands M M Set Event Receiver 29 1 S E 01 Get Event Receiver 29 2 S E 02h M M Yes Platform Event 29 3 S E 03h M M Yes 42 AT8050 tron com Table 4 6 PEF and Alerting Supported Commands for IPMC IPMISpec section
39. Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 5h 1h 01h gt Carrier Device 1 Intel IOH PCI Express Root Complex Port 7 00c201h Oh 6h 2h 01h gt Carrier Device 1 Intel IOH PCI Express Root Complex Port 7 00e301h Oh 7h 3h 01h gt Carrier Device 1 Intel IOH PCI Express Root Complex Port 7 010804h Oh 8h 8h 04h gt Carrier Device 4 Fabric Channel 1 via OnBoard Switch 012805h Oh 9h 8h 05h gt Carrier Device 5 Fabric Channel 2 via OnBoard Switch 014704h Oh Ah Oh 04h gt Carrier Device 4 Fabric Channel 1 via OnBoard Switch 016705h Oh Bh 7h 05h gt Carrier Device 5 Fabric Channel 2 via OnBoard Switch Point to Point Port Descriptor 01 407 Reserved Bits 23 18 Oh Local Port Bits 13 17 Fh Remote Port Bit 12 8 Dh 64 AT8050 tron com Remote Resource ID Bits 7 0 Point To Point AMC Resource Descriptor Local Resource ID Point To Point Port Count Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port D
40. RTM8050 voltage or temperature fails 27 AT8050 www kontron com Figure 2 10 Faceplate LEDs Out Of Service LED Healthy LED Link Act Off No link Green Link Blinking Activity Amber 10 100Mb Green 1000 Mb Fabric Interface Link Act Off No link Green 10Gb Link Amber 1Gb Link Blinking Activity Amber 10 100Mb Link Blinking Activity Disk Act Local Remote Link Act No activity Off No link ing Activity Green 1Gb Link Blinking Activity Hot Swap LED Note Disk activity is obtained directly from the ICH for SATA and from RTM Link for SAS links of the SAS controller located on the RTM If the SAS controller is accessed through the Update Channel it doesn t provide any activity status 28 AT8050 tron com Chapter 3 Installing the Board Seltnid DOES unen san ome UU P ERE 30 3 2 PROCESS ON c R 31 392 gu ad PAR 31 3 4 Onboard Connectors and Headers 34 3 5 Board Hot Swap and Installation 35 www kontron com 3 Installing the Board 3 1 Setting Jumpers 3 1 1 Jumper Description Table 3 1 Jumper Description FW Write Protect When On it enables the firmware write protect JP1 1 2 FPGA PROM Selection When On it selects the factory prom JP1 3 4 Clear CMOS Setup When On it clears th
41. Sensor type code 08h for sensor definition Fuse presence and fault detection 48 V on supply B Sensor type 08h Power 59 Fuse Pres B Feed Discrete Supply Event Reading type code 6Fh Sensor specific only offset 0 1 are used see IPMI v1 5 table 36 3 Sensor type code 08h for sensor definition Fuse presence and fault detection RTN Return on supply A Sensor type 08h 60 Fuse RTN A Feed Discrete Power Supply Event Reading type code 6Fh Sensor specific only offset 0 1 are used see IPMI v1 5 table 36 3 Sensor type code 08h for sensor definition Fuse presence and fault detection RTN Return on supply B Sensor type 08h 61 Fuse RTN B Feed Discrete Power Supply Event Reading type code 6Fh Sensor specific only offset 0 1 are used see IPMI v1 5 table 36 3 Sensor type code 08h for sensor definition Fuse presence and fault detection on Early 48V supply A Sensor type 08h 62 Fuse Earl A Feed Discrete Power Supply Event Reading type code 6Fh Sensor specific only offset 0 1 are used see IPMI v1 5 table 36 3 Sensor type code 08h for sensor definition Fuse presence and fault detection on Early 48V supply B Sensor type 08h 63 Fuse Earl B Feed Discrete Power Supply Event Reading type code 6Fh Sensor specific only offset 0 1 are used see IPMI v1 5 table 36 3 Sensor type code 08h for sensor definition Board Power State Sensor type Kontron OEM Power State Sensor Event 64 Power State Discrete Reading type code 6Fh S
42. Support WARNING A High voltages are present inside the chassis when the unit s power cord is plugged A into an electrical outlet Turn off system power turn off the power supply and then disconnect the power cord from its source before removing the chassis cover Turning off the system power switch does not remove power to components ix AT8050 www kontron com Safety Instructions Preventing Electrostatic Discharge Static electricity can harm system boards Perform service at an ESD workstation and follow proper ESD procedure to reduce the risk of damage to components Kontron strongly encourages you to follow proper ESD procedure which can include wrist straps and smocks when servicing equipment Take the following steps to prevent damage from electrostatic discharge ESD When unpacking a static sensitive component from its shipping carton do not remove the component s antistatic packing material until you are ready to install the component in a computer Just before unwrapping the antistatic packaging be sure you are at an ESD workstation or grounded This will discharge any static electricity that may have built up in your body When transporting a sensitive component first place itin an antistatic container or packaging Handle all sensitive components at an ESD workstation If possible use antistatic floor pads and workbench pads Handle components and boards with care Don t touch the components or
43. This board is shipped with the following items One AT8050 board One RJ45 DB9 serial adaptor 1015 9404 One AMC filler panel Cables that have been ordered If any item is missing or damaged contact the supplier 2 AT8050 www kontron com Product Description 1 3 Board Specifications Table 1 1 Board Specifications Intel Xeon Quad Core L5518 Processor 2 13 GHz 8MB cache BIOS 3 00 and highier Intel Xeon Six Core L5638 Processor 2 GHz 12MB cache Passive heatsink Virtualization Technology supported Chipset Intel 5520 1 0 Hub 360 8 Intel 1 0 Controller Hub ICH10R z 86 TEN Interconnect delivering up to 5 86 GT s lane 1 Mid size AdvancedMC bay x4 PCI Express Expansion Slot 2x1000Base BX Ports common option Dual port SAS with RTM SATA 1 RS232 link to RTM Up to 48 GB on 6 latching sockets of VLP DDR 3 1066MHz RDIMM SDRAM System Memory ECC support support 54 4 3 DDR 3 channels 2 DIMM per channel Two redundant 1MB BIOS Field software upgradeable Roll back functionality controlled by IPMC 4 ports SAS SATA available using RTM with the LSISAS1064e USB 550 Flash many avaialble sizes daughter board 15051 SATA AMC with ICH10 controller Front Panel Serial RJ 45 2 182576 Management LAN RJ 45 2 USB PCIe Gen2 5Gb s in Update Channel AMC Carrier ATCA blade Inteli82599 1
44. be supported but they are described in the IPMI 2 0 specification Section 33 SDR Repository Commands 48 AT8050 www kontron com 4 3 2 1 IPMC Sensors Table 4 17 IPMC Sensors ATCA Board FRU Hot Swap Sensor for FRU 0 Front Board Sensor type code FOh PICMG Hot Swap Event Reading type code 6Fh Sensor specific See PICMG 3 0 R3 0 Table 3 22 FRU Hot Swap event message ATCA Board FRU Hot Swap Sensor for FRU 1 AMC B1 Sensor type code FOh PICMG Hot Swap Event Reading type code 6Fh Sensor specific See PICMG 3 0 R3 0 Table 3 22 FRU Hot Swap event message ATCA Board FRU Hot Swap Sensor for FRU 2 RTM Sensor type code FOh PICMG Hot Swap Event Reading type code 6Fh Sensor specific See PICMG 3 0 R3 0 Table 3 22 FRU Hot Swap event message ATCA Board FRU Hot Swap Sensor for FRU 3 RTM Disk Sensor type code FOh PICMG Hot Swap Event Reading type code 6Fh Sensor specific See PICMG 3 0 R3 0 Table 3 22 FRU Hot Swap event message Sensor Population Change on Carrier Sensor type 12h System Event 4 FRUO Reconfig Discrete Event Reading type code 6Fh Sensor specific only offset 0 is used see AMC 0 R2 0 for event trigger see IPMI v1 5 table 36 3 Sensor type code 12h for sensor definition 0 FRUO Hot Swap Discrete 1 FRU1 Hot Swap Discrete 2 FRU2 Hot Swap Discrete 3 FRU3 Hot Swap Discrete DC Feed A Input Temperature Degrees Sensor type 01h temperature Event Reading type code
45. by supercap or in the main BIOS flash and EEPROM The latest is the default configuration 5 1 1 Accessing the BIOS Setup Utility The system BIOS Basic Input Output System provides an interface between the operating system and the hardware of the AT8050 It uses the AMI Setup program a setup utility in flash memory that is accessed by pressing the lt DEL gt or lt F4 gt from a console redirection terminal key at the appropriate time during system boot This utility is used to set configuration data in CMOS RAM To run the AMI Setup program incorporated in the ROM BIOS Turn on or reboot the system When you get the following messages hit DEL key to enter SETUP AMIBIOS C 2010 American Megatrends Inc KONTRON AT8050 BIOS Version 3 00 C American Megatrends Inc 64 3047 009999 00101111 031710 TYLSBURG 5007 300 2 Physical Processors Package 1 Active Processors Cores 4 Logical Processors 8 Intel HT Technology Enabled Speed 5 866GT CPU Intel R Xeon R CPU L5518 2 13GHz Speed 2 13 GHz Reset Type Cold Reset Currently Running On Primary BIOS Press DEL to run Setup F4 on Remote Keyboard Press F12 if you want to boot from the network Press 11 for BBS POPUP on Remote Keyboard Initializing USB Controllers Done Memory Channel 0 DIMM 0 Size 2048MB Memory Channel 0 DIMM 1 Size Not Installed Memory Channel 1 DIMM 0 Size 2048MB Memory Channel 1 DIMM 1 Size Not Installed
46. code will not be executed during POST Enables or disables Update Channel Expansion ROM s if any detected If disabled Update Channel Expansion ROM s code will not be executed during POST Disabled Base interface PXE expansion ROM not used If disabled remote LAN boot via BI is not available to boot the system ISCSI Initializes iSCSI expansion ROM PXE Initializes base interface PXE expansion ROM Disabled Fabric interface PXE expansion ROM not used If disabled remote LAN boot via FI is not available to boot the system iSCSI Initializes iSCSI expansion ROM PXE Initializes fabric interface PXE expansion ROM Enabled Initializes Management Ports PXE expansion ROM Disabled Management Ports PXE expansion ROM not used If disabled remote LAN boot via Management Ports is not available to boot the system Enabled Initializes RTM expansion ROM Disabled RTM expansion ROM not used If disabled any SAS devices attached to the RTM are not available to boot the system Enabled Initializes AMC slot expansion ROM Disabled AMC slot expansion ROM not used Enabled Initializes Update Channel expansion ROM Disabled Update 94 AT8050 ron com Software Setup 5 1 4 6 PCI Express Configuration sub menu Enabled Hot Plug for RTM available Enabled RTM hot plug support can be enabled Disabled Hot Plug for RTM Hot Plug Support Disabled disabled RTM not availab
47. counting the RJ 45 Ethernet LED Table 2 3 Faceplate LEDs ATCAO Blue IPMC Blade Hot Swap status ATCA1 Amber Red IPMC Blade 005 out of service ATCA2 Amber Green IPMC Healthy status ATCA3 Amber Green IPMC CPU Application specific Strip1 LO Amber Green FPGA Base Interface Channel 1 Status Strip1 L1 Amber Green FPGA Base Interface Channel 2 Status Strip1 L2 Amber Green FPGA Fabric Interface Channel 1 Status Strip1 L3 Amber Green FPGA Fabric Interface Channel 2 Status Strip2 LO Amber Green FPGA SAS SATA local disks activity Strip2 L1 Amber Green FPGA SAS external disk activity Strip2 L2 Amber Green FPGA Alternate LAN configuration Strip2 L3 Amber Green FPGA Alternate LAN configuration 2 15 1 Hot Swap LED LEDO The Blue Hot Swap LED indicates the hot swap status of the RTM The LED is ON when itis safe to remove the RTM from the slot During normal operation this LED is OFF 2 15 2 Out Of Service LED1 The AdvancedTCA LED1 is red or amber and indicates an Out of Service 00S condition During normal operation the OOS LED is OFF This LED is ON during firmware upgrade and is user configurable if needed by a customer application 2 15 3 Healthy LED LED2 The AdvancedTCA LED2 is green or amber and indicates a healthy condition The healthy LED indicates if the blade is powered up and all voltages and temperatures are within specifications During normal operation this LED is ON green This LED is also ON amber when one of the
48. device type Hard disk Display the vendor string of the disk N A Display the size of the disk N A Display the current speed of the drive WA Analysis and Reporting Technology Auto Auto will detect the device Not installed will Not Installed not detect the device SATA Port 2 PS sub menu fields Display the status of the Self Monitoring only Display only Display only Display only Display only Select the type of device connected to the system Device Vendor Size Ultra DMA S M A R T Type Display the device type Hard disk Display the vendor string of the disk N A Display the size of the disk N A Display the current speed of the drive Analysis and Reporting Technology Auto Auto will detect the device Not installed will Not Installed not detect the device Display the status of the Self Monitoring Display only Display only Display only Display only Display only Select the type of device connected to the system www k on com 91 AT8050 Software Setup 5 1 4 3 4 AHCI Porto AHCI Port1 AHCI Port2 AHCI Configuration sub menu N A N A N A While entering setup BIOS auto detects the presence of IDE devices This displays the status of auto detection of IDE devices Selects sub menu While entering setup BIOS auto detects the presence of IDE devices This displays the status of auto detection of IDE devices Select
49. farthest repa from the processor in a fill farthest approach Displays Channel 1 DIMM 1 memory size i pud XGB AT8050 DIMM electrically closest to CPU N A display only emory Size filled last Displays Channel 2 DIMM 0 memory size AT8050 DIMM electrically farthest to CPU Channel 2 DIMM 0 XGB filled first DIMMs within a channel must be N A display onl Memory Size populated starting with the DIMMs farthest from the processor in a fill farthest approach Displays Channel 2 DIMM 1 memory size 2 XGB AT8050 DIMM electrically closest to CPU N A display only emory Size filled last System Memory Speed XMHz Displays system Memory speed N A display only 5 1 4 Advanced Menu Advanced Processor Selects sub menu N A ACPI Configuration N A Selects sub menu N A Drive Configuration N A Selects sub menu N A Event Log Configuration N A Selects sub menu N A N A Selects sub menu N A PCI Express Configuration N A Selects sub menu N A USB Configuration N A Selects sub menu N A Advanced Chipset Control N A Selects sub menu N A Intel VT d Configuration N A Selects sub menu N A 1 0 Virtualization N A Selects sub menu N A 88 AT8050 ron com Software Setup 5 1 4 1 Manufacturer Frequency Cache L1 Cache L2 Cache L3 Logical Processor Physical Processor MPS and ACPI MADT ordering Max CPUID Value Limit Processor Virt
50. for threshold based event Voltage on board 1 8V CPU power supply Volts Sensor type 02h voltage Event 47 Vcc 1 8V CPU Threshold Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event 46 Vcc 2 5V REF Threshold Voltage on board Vddq payload power supply Volts Sensor type 02h voltage 48 Vcc Vddq Threshold Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event Voltage on 48v feed A board input power supply Volts Sensor type 02h 49 Vcc 48V A Feed Threshold voltage Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event Voltage on 48v feed board input power supply Volts Sensor type 02h 50 Vcc 48V B Feed Threshold voltage Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event Feed A B Redundancy Status Sensor type 08h Power Supply Event Reading type code OBh Discrete Redundancy State only offset 0 1 are used see IPMI v1 5 table 36 2 event reading type code OBh for sensor definition 51 Feed A B Status Discrete DIMM 1 Temperature Sensor Presence Sensor type 25h Entity Presence Event 52 DIMM 1 SPD Pres Discrete Reading type code 6Fh Sensor specific only offset 0 1 are used see IPMI v1 5 table 36 3 Sensor type code 25h Entity Presence for sensor definition DIMM 2 Temperature Sensor Presence Sensor type 25h Entity Presence
51. from there to the IPMC via a proprietary bus The PLD receives 19 44MHz clocks from the backplane CLK2A and CLK2B and use it as a reference to the DPLL Anyone of the PLL clock outputs can be used to feed the AMC s TCLKA using the FPGA interface If a backplane clock is lost the circuit will automatically switch to the redundant clock If all backplane clocks are lost the PLL will switch to holdover mode until a clock reappears If both copies ofthe 19 44MHz from CLK2A and CLK2B are lost the clock control circuitry activates an alarm to the IPMC as long as the telecom sync option is enabled in the shelf The PLD is field upgradeable If upgrade is necessary for this device an appropriate procedure will be provided with the code update Refer to the register description in appendix and to the 2130108 datasheet available on Zarlink s web site www zarlink com for further details on possible clock speed and configuration 2 14 Redundant IPMC Firmware amp BootBlock The IPMC runs a firmware from its internal 512KB flash The IPMC Boot Block saves the last two copies ofthe IPMC firmware image in dedicated SPI flash memory The Boot Block manages the IPMC reprogramation and can rollback to the previous firmware image in the IPMC internal flash in case of update problem Note 2 IPMC has external hardware watchdog 26 AT8050 www kontron com 2 15 LEDs Description The following table lists the LED on the faceplate not
52. of 225W The power consumption will vary depending on your product configuration AMC RTM amp extra memory Operating 0 55 C 32 131 F with airflow Storage and Transit 40 to 70 C 40 to 158 F Operating 15 to 9090 55 C 131 F non condensing Storage and Transit 5 to 95 40 C 104 F non condensing Operating 4 000 m 13 123 ft Storage and Transit 15 000 m 49 212 ft Operating 3G each axis Storage and Transit 18G each axis Operating 5 200 2 0 20 each axis Storage and Transit 5Hz to 20Hz 2 1 m2 s3 0 01g2 Hz flat 20Hz to 200Hz 2 3dB oct slope down Whole board protected by active breaker USB voltage protected by an active breakers Meet or exceed Safety UL 60950 1 CSA C22 2 No 60950 1 03 EN 60950 1 2001 IEC60950 1 EMI EMC FCC 47 CFR Part 15 Class B CE Mark to EN55022 EN55024 EN300386 Two years limited warranty Designed to meet or exceed 4 AT8050 ron com Product Description 1 4 Compliance This product conforms to the following specifications e PICMG3 0 R3 0 Advanced TCA Base Specification PICMG3 1 R1 0 Ethernet Fiber Channel over AdvancedTCA 0 R2 0 Advanced Mezzaninne Card Base Specification e AMC 1 R1 0 Advanced Mezzaninne Card PCI Express AMC 2 R1 0 Advanced Mezzaninne Card Ethernet e AMC 3 R1 0 Advanced Mezzaninne CardStorage ACPI rev 2 0 HPM 1 IPMI 2 0 1 5 Hot Plug Capability The AT8050 suppo
53. or lt PgDn gt Move cursor to top or bottom of window lt gt Select the Previous Value for the field lt gt Select the Next Value for the field F2 and F3 Change colors used in Setup F7 Disacard the changes for all menus F9 Load the Optimal Default Configuration values for all menus lt F10 gt Save and exit lt Enter gt Execute Command display possible value for this field or Select the sub menu To select an item use the arrow keys to move the cursor to the field you want Then use the plus and minus value keys to select a value for that field To save value commands in the Exit Menu save the values displayed in all menus To display a submenu use the arrow keys to move the cursor to the submenu you want Then press lt Enter gt 5122 Field Help Window The help window on the right side of each menu displays the help text for the selected field It updates as you move the cursor to each field 86 AT8050 www k n com Software Setup 5 12 2 General Help Windows Pressing lt F1 gt on any menu brings up the General Help window that describes the legend keys and their alternates General Help 1 5 Change Option Field PGDN Next Page HOME Go to Top of Screen T Select Item Enter Go to Sub Screen PGUP Previous Page END Go to Bottom of Screen F2 F3 Change Colors F7 Discard Changes F9 Load Defaults ESC Exit F10 Save and Exit OK
54. stored in IPMI NVRAM for IPMI LAN Select if 802 1q VLAN tagged packets are added Display the current status of the 801 1q VLAN tagged packets configuration stored in IPMI NVRAM for IPMI LAN N A display only Enter Channel Number for SET LAN Config Command Proper value 01 or 02 N A display only Select IP Address Source Static or DHCP N A display only Enter Gateway IP Address in decimal in the form of XXX XXX XXX XXX XXX less than 256 and in decimal only N A display only Enter Channel Number for SET LAN Config Command Proper value 01 or 02 N A display only Enter VLAN ID value in decimal VLAN ID must be between 1 and 4094 N A display only Select if VLAN Tagged Packets are to be added or not N A display only 107 AT8050 ron com Software Setup 5 1 7 8 VLAN Priority Configuration The parameter selector assignments are LAN Parameter Selector 21 described in IPMI Specification 2 0 table 23 N A display only 4 Selector 21 802 1q VLAN Priority Each interface has a channel number that is used when configuring the channel and for Enter Channel Number routing messages between channels Channels for SET LAN Config SAEI HUIUS Oloro 01 and 02 on Base interface are available The Command Proper value channel number assignments are describedin 01 or 02 IPMI Specification 2 0 table 6 1 Channel Status Valid or Invalid Display Valid if IPMC
55. support LAN Channel N A display only 802 1q VLAN Priority This allows setting an 802 1q VLAN priority for value in decimal Proper Value LAN configuration value below 8 m Display the current 801 1q VLAN Priority VILAIN Bun x configuration stored in IPMI NVRAM for IPMI N A display only Value LAN 5 1 7 9 Watchdog Timer sub menu Disabled 60 Configures the BIOS POST IPMI HW watchdog 120 timeout value in seconds The BIOS POST select ire EIOS FOST BIOS POST Timeout 2 IPMI HW watchdog 150 watchdog will be disabled if the timeout value 5 timeout value 300 is set 0 600 Configures which action take when the BIOS No Action POST IPMI HW watchdog expires Note warm Select which action to BIOS POST Action Warm Reset reset is done only if a complete cold boot POST take when the BIOS POST Power Down sequence has been successfully completed If IPMI HW watchdog Power Cycle the warm reset flag at address 40 72h is not expires set BIOS will force a cold reset Disabled 15 30 45 Configures the OS Load HW watchdog Load Timeout 60 timeout value in seconds The 0S Load i 90 watchdog will be disabled if the timeout value UC g 120 is set 0 d 150 300 600 No Action Select which action to OS load AUR Warm Reset Configures which action to take when the 05 take when the OS Load Power Down Load IPMI HW watchdog expires IPMI HW watchdog Power Cycle expires 108 AT8050 ron c
56. sure the MTBF values are respected The CPU usage will influence the temperature that the case can handle Refer to the figure below for more details Figure 6 3 CPU Thermal Profile CPU Thermal Profile 90 80 70 CPU nominal thermal profile e 60 5 20 CPU short term thermal profile s 40 30 T5007 nominal profile 0 72 8 m3 min 25 3 8 40 C 20 5007 short term profile 1 13 m3 min 40 amp 55 C EE o o 15 20 25 30 35 40 45 50 55 60 CPU Power W 120 AT8050 www kontron com A Memory amp 1 0 Maps A 1 Memory Mapping 1MB to top of DRAM A 1000008 3 See detailed map to the right 0000h XBDA USB Legacy BIOS Stac 0 622KB DRAM FFFFFh System BIOS E0000h Optional ROM free LAN BIOS if activated 30KB See Note 2 SAS BIOS if activated 18KB at runtime Optional ROM Free C0000h Video DRAM A0000h Note 1 LAN BIOS address may vary Note2 SAS BIOS address may vary Size is only 2KB if no device 00000 9B7FF 9B800 9FFFF A0000 BFFFF C0000 DBFFF E0000 FFFFF 0 622 KB DRAM 622KB 640 KB XBDA USB Legacy BIOS Stack Video DRAM Optional ROM Free LAN BIOS around 30KB if activated address may vary External Fiber Channel BIOS 18KB 64KB address may vary System BIOS 100000 PCI Memory DRAM ava
57. to be reprogrammed every time the blade is resetted Those are direct pin control and status See the 2130108 datasheet for a detailed explanation of the functionality www k n com 7 8050 4 1 3 ERN NN gt LIN 02h Base 02h TelClock2 AMCs Clock Enables amp Frequency Selection Read B2TCF B2TAF B2TCEN B2TAEN 1 B1TCEN B1TAEN Write B2TCF B2TAF B2TCEN B2TAEN B1TCF B1TAF B1TCEN B1TAEN Reset 0 0 0 0 0 0 0 0 2 1 B1TCEN B1TAEN A 4 1 4 Reserved for AMC B2 for board that have two AMCs AMC B1 TCLK Frequency 1 use 8kHz frame pulse from PLL 0 use 19 44MHz from PLL AMC B1 TCLKA Frequency 1 use 8kHz frame pulse from PLL 0 use 19 44MHz from PLL AMC B1 TCLKC Enable This bitis forced to 0 when the AMC is in fault or removed 1 drive AMC B1 clock TCLKC 0 don t drive AMC B1 TCLKC 1 TCLKA Enable this bit is forced to 0 when the is in fault or removed 1 drive AMC B1 clock TCLKA 0 don t drive AMC B1 TCLKA Note Ifthe clock source of the PLL is 19 44MHz the phase ofthis clock is unrelated to any other 8kHz clock in the system The AMC has to be present and fully powered for the enable bits to be settable On a unexpected extraction user doesn t wait for the blue LED the hardware automatically clears bits 1 and B1TAEN in case a user would extract and re insert im
58. 0 437 5682 and in EMEA at 49 0 8341 803 333 Make sure you have the following on hand our Invoice your Purchase Order and the Serial Number of the defective unit 2Provide the serial number found on the back of the unit and explain the nature of your problem to a service technician E 1 AT8050 www kontron com 3The technician will instruct you on the return procedure if the problem cannot be solved over the telephone 4Make sure you receive an RMA from our Technical Support before returning any merchandise E mail 1Send us an e mail at RMA ca kontron com in North America and at orderprocessing kontron modular com in EMEA In the e mail you must include your name your company name your address your city your postal zip code your phone number and your e mail You must also include the serial number of the defective product and a description of the problem E 2 When Returning Unit e In the box you must include the name and telephone number of a contact person in case further explanations are required Where applicable always include all duty papers and invoice s associated with the item s in question Ensure that the unitis properly packed Pack itin a rigid cardboard box Clearly write or mark the RMA number on the outside of the package you are returning Ship prepaid We take care of insuring incoming units North America EMEA Kontron Canada Inc Kontron Modular Computers G
59. 0 AMC 1 AMC 2 and AMC 3 Serial Port AMC port 15 50W maximum power budget As per AMC 1 R2 0 the carrier board is required to provide PCIe 100MHz reference clock to the AMC on FCLKA However modules are not required to use it Kontron recommends using AMC Express modules that use the reference clock on FCLKA If the module makes its own reference clock then the spread spectrum of PCI Express clock synthetizer will be disabled by e keying otherwise the behavior of the PCI Express link will be erratic Note 2 All electromagnetic compatibility testing has been done with spread spectrum Disabling the spread spectrum can complicate EMC The SAS interface on port 2 allows to use a SAS AMC storage mezzanine on the AT8050 and also accommodates SATA drives AMC SATA SAS electrical path are properly design for Hot Swap operation but special care must be taken to ensure proper un mount sequence within the operating system AMC port 3 is supplied by the RTM for SAS connectivity The telco clock signals allow the AT8050 to provide clocks to the AMC on TCLKA and TCLKC It also allows an AMCto retrieve a clock and to provide itto the system through TCLKB and TCLKD For possible clock frequency and connection with the backplane refer to section Telecom Clock Option i BIOS Settings 01 Advanced gt Drives Configuration Advanced Expansion ROM Configuration Advanced PCI Express Configuration System Management gt E Keying
60. 00 8050 ron com Software Setup 5 1 6 3 Hard Disk Drives sub menu Specifies the boot priority of the available devices Select the boot Specifies the boot priority of the available device with UpArrow or Hard Disk devices DownArrow key Press Enterto setthe selection as the intended boot device 1st Drive Varies Specifies the boot priority ofthe available devices Select the boot Specifies the boot priority of the available device with UpArrow or Hard Disk devices DownArrow key Press Enterto setthe selection as the intended boot device Nth Drive Varies 5 1 6 4 Removable Drives sub menu Specifies the boot priority ofthe available devices Select the boot Specifies the boot priority of the available device with UpArrow or Removable devices DownArrow key Press Enterto setthe selection as the intended boot device 1st Drive Varies Specifies the boot priority ofthe available devices Select the boot Specifies the boot priority of the available device with UpArrow or Removable devices DownArrow key Press Enterto setthe selection as the intended boot device Nth Drive Varies 101 AT8050 www k on com Software Setup 5 1 6 8 CD DVD Drives sub menu Specifies the boot priority of the available devices Select the boot Specifies the boot priority of the available CD device with UpArrow or or DVD devices DownArrow key Press Enterto setthe selection as the intende
61. 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event DC Feed B Input Temperature Degrees Sensor type 01h temperature THESES Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event DC Feed 12V Out Temperature Degrees Sensor type 01h temperature 5 Temp 48V A Feed Threshold 6 Temp 48V B Feed i TUS AM Thresholk Event Reading type code 01h threshold based see IPMIv1 5 section 29 13 3 for threshold based event VDDQ Temperature Degrees 8 Temp VDDQ Threshold Sensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event Vcore Switcher Temperature Degrees Sensor type 01h temperature Event Reading type code 01h threshold based see IPMIv1 5 section 29 13 3 for threshold based event 852472 IPM Controller Temperature Degrees Sensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event 1 0 Hub Chipset Temperature Degrees Sensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event 9 Temp Vcore 10 Temp IPMC Threshold 11 Temp IOH Threshold 49 AT8050 tron com 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Temp ICH Temp Mngt Lan Temp BI Lan Temp FI La
62. 0Gb s or 1Gb s Ethernet Controller to Fabric Interface I 0 Inteli82576 1Gb s to the Base Interface Management LAN can used to provide 1000Base BX interface to AMC PO 8 P1 RTM SFPs or to the Fabric Interface POs Synchronisation Clocks Interface support PICMG 3 0R3 3 1 option 9 option 2 PICMG AMC 0R2 AMC 1 type 4 AMC 2 type E2 amp type 4 AMC 3 PICMG HPM 1 IPMI 2 0 AMI BIOS Warm reset support with memory protection for post mortem analysis Save CMOS in SEEPROM option Boot from Ethernet PXE Base and Fabric interfaces and management Lan Boot from Ethernet iSCSI Base and Fabric interfaces Boot from SAS SATA and boot from USB 2 0 Floppy CD ROM Hard Disk BIOS Features Diskless Keyboard less and battery less operation extensions System video and LAN BIOS shadowing Robust BIOS flash Update with rollover capability HPM 1 Field updateable BIOS Advanced Configuration and Power Interface ACPI 1 0 2 0 8 3 0 Console redirection to serial port VT100 with CMOS setup access and SOL Serial over LAN Event correctable uncorrectable ECC POST errors log support to IPMC Flash Memory Storage Board Specifications 3 AT8050 ron com Product Description IPMI Features Supervisory 05 Compatibility Power Requirements Environmental Temperature Environmental Humidity Environmental Altitude Environmental Shock En
63. 0h Oh O1h Carrier Device 0 gt Intel IOH PCI Express Root Complex Port 8 01 18820 OFh 03h 02h 01 00h FE00302f01h 3Fh 02h Provides a Secondary PCI Express Port 00h Single Channel Link 03h 2 SSC 02h AMC 1 PCI Express FO1h AMC Channel 1 Lane0 1 2 3 FE00202f01h 3Fh 02h Provides a Secondary PCI Express Port 00h Single Channel Link 02h Gen2 NO SSC 02h AMC 1 PCI Express 1 AMC Channel 1 Lane0 1 2 3 FEO0102f01h 3Fh 02h Provides a Secondary PCI Express Port 00h Single Channel Link 01h Gen1 SSC 02h AMC 1 PCI Express FO01h AMC Channel 1 Lane0 1 2 3 FE00002f01h 3Fh 68 AT8050 tron com AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Design
64. 2h M M Yes Set Watchdog Timer 27 6 App 24h M M Yes Get Watchdog Timer 27 7 App 25h M M Yes Table 4 3 Device Messaging Supported Commands for IPMC on IPMC BMC Device and Messaging Commands 5 Set BMC Global Enables 22 1 App 2Eh M 0 M Yes Get BMCGlobalEnables 22 2 App 2Fh M 0 M Yes Clear Message Flags 22 3 App 30h M 0 M Yes 40 AT8050 www kontron com IPMISpec section NetFn IPMI BMC req IPMC Kontron support on IPMC Get Message Flags Enable Message Channel Receive 22 5 App 32h 0 0 Yes Get Message 22 6 App 33h M 0 M Yes Send Message 22 7 App 34h M M Yes Read Event Message p 22 8 App 35h 0 0 Yes Get BT Interface Capabilities 22 10 App 36h M 0 M No Get System GUID 22 14 App 37h 0 0 Yes Get Channel Authentication 22 13 App 38h 0 0 Yes Capabilities Get Session Challenge 22 15 App 39h 0 0 Yes Activate Session 22 17 App 3Ah 0 0 Yes Set Session Privilege Level 22 18 App 3Bh 0 0 Yes Close Session 22 19 App 3Ch 0 0 Yes Get Session Info 22 20 App 3Dh 0 0 Yes Get AuthCode 22 21 App 3Fh 0 0 No Set Channel Access 22 22 App 40h 0 0 Yes Get Channel Access 22 23 App 41h 0 0 Yes Get Channel Info 22 24 App 42h 0 0 Yes Set User Access 22 26 App 43h 0 0 Yes Get User Access 22 27 App 44h 0 0 Yes Set User Name 22 28 App 45h 0 0 Yes Get User Name 22 29 App 46h 0 0 Yes Set User Password 22 30 App 47h 0 0 Yes Activate Payload 24 1 App 48h Yes Deactivate Payload 24 2 App 49h Yes Get Payload Activation Status 4Ah Yes Get
65. 3 93 PICMG 29h 0 M No Set Telco Alarm State 3 94 PICMG 2Ah 0 M No Get Telco Alarm State 3 95 PICMG 2Bh 0 M No Get Telco Alarm Location 3 95 PICMG 39h 0 M No Set FRU Extracted 3 25 PICMG 3Ah M No Table 4 15 0 Carrier Commands for IPMC IPMC 0 Table Set AMC Port State Table 3 27 PICMG 19h 0 M Yes Get AMC Port State Table 3 28 PICMG 1Ah 0 M Yes Set Clock State Table 3 44 PICMG 2Ch 0 M Yes Get Clock State Table 3 45 PICMG 2Dh 0 M Yes 47 AT8050 tron com 4 16 HPM Commands IPMISpec section NetFn CMD CarrierIPMC Kontron support on req IPMC HPM Get Target Upgrade Capabilities Yes pope Yes Abort Firmware Upgrade Yes Initiate Upgrade Action Yes Upload Firmware Block Yes Finish Firmware Upload Yes Get Upgrade Status Yes Activate Firmware Yes Query Self Test Results Yes Query Rollback Status Yes Initiate Manual Rollback Yes 4 3 2 Sensor Data Records Information that describes the IPMC capabilities is provided through two mechanisms capabilities commands and Sensor Data Records SDRs Capabilities commands are commands within the IPMI command set that return fields providing information on other commands and functions the controller can handle Sensor Data Records are data records containing information about the type and number of sensors in the platform sensor threshold support event generation capabilities and information on what types of readings the sensor
66. 315Ah PICMG Record ID 18h Carrier Point To Point Connectivity Record 00h 85h gt Site 5 AMC B1 Dh 000003h Oh Oh Oh 03h gt Carrier Device 3 Intel 82576EB NC front rear 002103h Oh th th 03h gt Carrier Device 3 Intel 82576EB NC front rear 004002h Oh 2h Oh 02h gt Intel ICH Sata Controller 004207h Oh 2h 2h 07h gt Virtual On Carrier Device 7 RTM 006307h Oh 3h 3h 07h gt Virtual On Carrier Device 7 RTM 008001h Oh 4h Oh 011 gt Carrier Device 1 Intel IOH PCI Express Root Complex Port 7 Point to Point Port Descriptor 00a101h Reserved Bits 23 18 Oh 63 AT8050 tron com Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to
67. 4 3 Storage 12h M M Yes Table 4 9 SDR Device Supported Commands for IPMC on IPMC SDR Device Commands Get SDR Repository Info 33 9 Storage 20h M M No Get SDR Repository Allocanontnfo 33 10 Storage 21h 0 0 No Reserve SDR Repository 33 11 Storage 22h M M No Get SDR 33 12 Storage 23h M M No Add SDR 33 13 Storage 24h M 0 M No Partial Add SDR 33 14 Storage 25h M 0 M No Delete SDR 33 15 Storage 26h 0 0 No Clear SDR Repository 33 16 Storage 27h M 0 M No Get SDR Repository Time 33 17 Storage 28h 0 M 0 M No Set SDR Repository Time 33 18 Storage 29h 0 0 Enter SDR Repository Update Mode 33 19 Storage 2Ah 0 0 No Exit SDR Repository Update Mode 33 20 Storage 2Bh M M No Run Initialization Agent 33 21 Storage 2Ch 0 0 No Table 4 10 SEL Device Supported Commands for IPMC IPMI Spec section NetFn CMD IPMI BMC req Carrier IPMC Kontron support req on IPMC SEL Device Commands M 0 Get SEL Info 31 2 Storage 40h M M Yes Get SEL Allocation Info 31 3 Storage 41h 0 0 Yes Reserve SEL 31 4 Storage 42h 0 0 Yes Get SEL Entry 31 5 Storage 43h M M Yes Add SEL Entry 31 6 Storage 44h M M Yes Partial Add SEL Entry 31 7 Storage 45h M M No Delete SEL Entry 31 8 Storage 46h 0 0 Yes 44 AT8050 tron com IPMISpec section NetFn IPMI BMC req ae IPMC Kontron support on IPMC Clear SEL 31 9 Storage M M Get SEL Time 31 10 Storage 48h M M Yes Set SEL Time 31 11 Storage 49h M M Yes Get Auxiliary Log Status 31 12 Storage 5Ah 0 0 No Set A
68. B Flash Drive J22 9 pins header for the USB Flash Drive Mezzanine Base Interface amp Fabric J23 Interface RTM J30 Power amp IPMB P10 Figure 3 2 0nboard Connectors and Headers Locations 2 2810 3810 E 1 34 AT8050 ntron com 3 5 Board Hot Swap and Installation Because ofthe high density pinout of the hard metric connector some precautions must be taken when connecting or disconnecting a board to from a backplane 1 Rail guides must be installed on the enclosure to slide the board to the backplane 2 Do not force the board if there is mechanical resistance while inserting the board 3 Screwthe frontplate to the enclosure to firmly attach the board to its enclosure 4 Use ejectorr handles to disconnect and extract the board from its enclosure WARNING A Always use a grounding wrist wrap before installing or removing the board froma A chassis 3 5 1 Installing the Board in the Chassis To install a board in a chassis 1 Remove the filler panel of the slot or see Removing the Board below 2 Ensurethe board is configured properly 3 Carefully align the PCB edges in the bottom and top card guide 4 Insertthe board in the system until it makes contact with the backplane connectors 5 Using bot
69. Core 2 2 1 Processor Built on 45 32 nanometer process technology e Quad Six core processor in 1366 land FCLGA On die 8 MB 12MB L3 shared cache Streaming SIMD Extension 2 3 and 4 SSE2 SSE3 and SSE4 Integrated 3 channel DDR3 controller DDR3 1066 memory with ECC Intel QuickPath interconnect links 5 86 GT s in each direction Intel 64 Architecture Enhanced Intel SpeedStep Technology Intel Virtualization Technology Simultaneous Multi Threading 2 2 2 Intel IOH 36D e QuickPath interconnect to the CPU 36 PCI Express 2 0 lanes 5 0Gb sec lane direction Direct Media Interface DMI ESI x4 lanes for communicating with the Intel ICH10 2 2 3 ICH10R Direct Media Interface DMI ESI x4 lanes for communicating with the Intel IOH RealTime Clock Serial ATA controller Advanced Host Controller Interface Intel Matrix Storage Technology Low Pin Count LPC Interface Serial Peripheral Interface 10 AT8050 www kontron com Controller Timer Counters Interrupt Controller Universal Serial Bus USB GPIOs Enhanced Power Management System Management Bus 2 0 SMBus 2 3 USB 2 0 Interfaces The board embeds a USB controller This controller is compliant to USB 2 0 It provides two USB ports on the face plate and two on the RTM Those ports can be used for external storage and for booting USB features include Capability to daisy chain as many as 127 dev
70. GND GND GND GND 2 Rx1 2 Rx1 2 GND GND GND GND 3 Rx3 1 Rx3 1 GND GND GND GND 4 Rx1 1 Rx1 1 GND GND GND GND 5 BI_DD1 BI_DD1 GND GND GND GND 6 BI_DD2 DI DD2 GND GND GND GND 7 N C N C GND GND GND GND 8 N C N C GND GND GND GND 9 N C N C GND GND GND GND 10 N C N C GND GND GND GND B 5 AT8050 www kontron com B 10 RTM Connector 230 1 V 12V 1 V 12V 5 V 12V 2 V 3V2 SUS FPGA IO 3 RTM_PRSNT 2 V 12V 3 V 12V 6 V 12V 4 NC D2 IPMC SCL IPMC SDA 3 SP TX SP RX JTAG_TD1 JTAG_TDO JTAG_TMS JTAG_TCK 4 USB1_D USB1_D INT_O INT_1 RTML TX RTML RX 5 SP_RTS SP_CTS MD2 RSVD_D5 CLK_PE CLK_PE 6 SATA_TX SATA TX SATA SATA RX SFP1_SCL SFP1_SDA 7 SAS_0_TX SAS 0 TX SAS 0 SAS 0 RX SAS 1 TX SAS 1 TX 8 1 GBE 1 GBE 1 GBE RX1 GBE 2 GBE TX2 9 PE6 PE6 PE7 RX PE7 RX PE5 PE5 TX 10 PE5_RX PE5_RX 7 7 LN 1 FPGA IO 1 RTM 2 USBO_D USBO_D GND GND GND GND 3 JTAG_TRST FPGA IO 2 GND GND GND GND 4 RTML CLK PROG GND GND GND GND 5 RSVD G5 JTAG SEL GND GND GND GND 6 SFPO SCL SFPO SDA GND GND GND GND 7 5 5 1 SAS 1 RX GND GND GND GND 8 GBE RX24 GBE RX2 GND GND GND GND 9 PE6 PE6 RX GND GND GND GND 10 4 RX GND GND GND GND B 6 AT8050 www kontron com B 11 Power 10 LN RN LUN N P 2 N P N P 4 HA6 SCL A SCL B 1 TIP
71. IOS pre boot process The following table describes the type of checkpoints that may occur during the POST portion of the BIOS 03 04 05 06 08 CO C1 C2 C5 C6 C7 0A 0B oc OE 13 24 30 2A 2c 2E 31 33 37 38 39 Disable NMI Parity video for EGA and DMA controllers Initialize BIOS POST Runtime data area Also initialize BIOS modules on POST entry and GPNV area Initialized CMOS as mentioned in the Kernel Variable wCMOSFlags Check CMOS diagnostic byte to determine if battery power is OK and CMOS checksum is OK Verify CMOS checksum manually by reading storage area If the CMOS checksum is bad update CMOS with power on default values and clear passwords Initialize status register A Initializes data variables that are based on CMOS setup questions Initializes both the 8259 compatible PICs in the system Initializes the interrupt controlling hardware generally PIC and interrupt vector table Do R W test to CH 2 count reg Initialize CH 0 as system timer Install the POSTINT1Ch handler Enable IRQ 0 in PIC for system timer interrupt Traps INT1Ch vector to POSTINT1ChHandlerBlock Initializes the CPU The BAT test is being done on KBC Program the keyboard controller command byte is being done after Auto detection of KB MS using AMI KB 5 Early CPU Init Start Disable Cache Init Local APIC Set up boot strap processor Information Set up boot strap processor for POST Enumerate and se
72. MC Channel Descriptor Reserved Bits 23 20 Lane 3 Port Number Bits 19 15 Lane 2 Port Number Bits 14 10 Lane 1 Port Number Bits 9 5 Lane 0 Port Number Bits 4 0 AMC Channel Descriptor Reserved Bits 23 20 Lane 3 Port Number Bits 19 15 Lane 2 Port Number Bits 14 10 Lane 1 Port Number Bits 9 5 Lane 0 Port Number Bits 4 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 02h Calculated Calculated Calculated 00315Ah 19h AMC Point To Point Connectivity Record 00h Oh 02h Carrier Device 2 gt Intel ICH10 SATA Controller 02h FFFFEOh OFh 1Fh 1Fh 1Fh 00h FFFFE1h OFh 1Fh 1Fh 1Fh 01h FE00107102h 3Fh 02h Implements SATA Client interface 00h Single Channel Link 011 Serial ATA 07h AMC 3 Storage 102h AMC Channel 2 LaneO FE00107103h 3Fh 02h Implements SATA Client interface 00h Single Channel Link O1h Serial ATA 07h AMC 3 Storage 103h AMC Channel 3 LaneO The following table gives AMC connectivity details for Intel 82576EB front rear On Carrier Device 3 AT8050 tron com
73. Memory Channel 2 DIMM 0 Size 2048MB Memory Channel 2 DIMM 1 Size Not Installed DDR3 6144MB OK Speed 1066MHz Auto detecting USB Mass Storage Devices 00 USB mass storage devices found and configured 84 AT8050 www kontron com Software Setup The main menu of the AMI BIOS CMOS Setup Utility appears on the screen Main Advanced Security Boot System Management Exit k k k k k k k ck ke k ck ck k k k k k lt K k k k k k k k k k k k k k k k k k k k k k amp ko k k ko ko k System Overview Sub menu to display KKK kk kk Ck KK KKK KKK kk ck kk kk kk ck kk ko kk ko ko kk koc ko kockckckckckck ck kk k k kk memory configuration AMIBIOS of each DIMM BIOS Version 08 00 15 Build Date 03 24 10 BIOS ID 5007 300 e FPGA Version 2 04 System Memory 1016MB System Memory Speed 1333MHz i id Memory Size Configuration i To Select Screen o Select Item Enter Go to Sub Screen F1 General Help System Time 23 33 11 F10 Save and Exit System Time 23 33 14 F10 Save and Exit kk Ck ck k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k ko k k k KKK k k KKK v02 61 C Copyright 1985 2010 American Megatrends Inc Setup Default values provide optimum performance settings for all devices and system features Note The CM0S setup option
74. OST Error Discrete Critical Interrupt Sensor type 13h Critical Interrupt Event Reading type code 71 Critical Int Discrete 6Fh Critical Interrupt offset 0 4 5 are used see IPMI v1 5 table 36 3 Sensor type code 13h for sensor definition 53 AT8050 tron com 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 Memory CMOS Mem Size CMOS Passwd CPU Status Bios Flash 0 Bios Flash 1 ACPI State IPMI Watchdog CLK3 Control FW Ver Change Health Error IPMBO Link State FRUO IPMBL State FRU1 IPMBL State FRU2 IPMBL State Discrete Discrete Discrete Discrete Discrete Discrete Discrete Discrete Discrete Discrete Discrete Discrete Discrete Discrete Discrete Memory Status Sensor type Memory Event Reading type code 6Fh Sensor specific offset 0 1 3 4 5 are used see IPMIv1 5 table 36 3 Sensor type code OCh for sensor definition POST Memory Resize Indicates if CMOS memory size if wrong Sensor type OEh POST Memory Resize Event Reading type code 03h Digital Discrete offset 0 1 are used see IPMI v1 5 table 36 3 Event Reading type code 03h for sensor definition CMOS Password Failure Sensor type 06h Platform Security Violation Attempt Event Reading type code 6Fh Sensor Specific offset 1 and 4 are used see IPMI v1 5 table 36 3 Sensor type code 06h for sensor definition Processor Status Sensor type 07h P
75. Sensor Watt Event Reading type code 01h threshold base see IPMIv1 5 section 29 13 3 for threshold based event FRU 2 RTM FRU 3 RTM s disk Power consumption in watts Sensor type OBh Other Unit Based Sensor Watt Event Reading type code 01h threshold base see IPMIv1 5 section 29 13 3 for threshold based event 26 AMC Power Threshold 27 RTM Power Threshold Vcore Power consumption in watts Sensor type OBh Other Unit Based Sensor Watt Event Reading type code 01h threshold based see IPMIv1 5 section 29 13 3 for threshold based event Vddq Power consumption in watts Sensor type OBh Other Unit Based Sensor Watt Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event 28 Vcore Power Threshold 29 Vddq Power Threshold Voltage on power mezsanine Vcc Hold UP Sensor type 02h voltage Event 30 Vcc Mez Hold UP Threshold Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event Voltage on board 1 0V suspend management power supply Sensor type 02h voltage Event Reading type code 01h threshold based see IPMIv1 5 section 29 13 3 for threshold based event Voltage on board 1 2V suspend management power supply Volts Sensor type 02h voltage Event Reading type code 01h threshold based see IPMIv1 5 section 29 13 3 for threshold based event 31 Vcc 1 0V SUS Threshold 32 Vcc 1 2V SUS Threshold Voltage on board 1 8V s
76. Setting Upd Channel Override State Management LAN Setting Management LAN State AMC P8 11 Setting AMC P8 11 State RTM Serial Port Setting OEM e keying Configuration sub menu Enabled Disabled Enabled Disabled Disabled Auto Enabled Disabled Auto Enabled Disabled Front Panel AMC 2 Module RTM Fabric Interface Disabled Front Panel AMC 2 Module RTM Fabric Interface Disabled Fabric Interface Disabled Fabric Interface CPU COM2 AMC P15 PCI Express Spread Spectrum Clock Mode support can be SSC Non SSC Display actual AMC PCI Express Spread Spectrum Clock Mode Route Update Channel PCI Express Display actual Update Channel PCI Express Routting Route Management LAN to the selected destination Display actual Management LAN Routing Route AMC port 8 11 to Fabric or disable Display actual AMC Port 8 11 Routing Route AMC port 15 to RTM or disable Select the PCI Express Spread Spectrum Clock SSC Mode Warning Re insertthe blade after changing the PCI Express Clock Mode This is used for AMC 1 module e keying N A Disabled disable PCIe port and PCIe clock Enabled enable PCIe port and PCIe clock Auto enable PCIe based on e keying Warning Reinsert the blade after changing settings N A Selects where the Management LAN ports are routed Warning Reinsert the blade after changing settings N A Disabled AMC 2 module is not connected to Fab
77. Settings Configuration WA Boot Device Priority N A Hard Disk Drives N A Removable Drives N A CD DVD Drives N A USB Drives N A Network Drives N A Other Drives N A Selects sub menu Selects sub menu Selects sub menu Selects sub menu Selects sub menu Selects sub menu Selects sub menu Selects sub menu Selects boot settings configuration Selects boot device priority Lists available hard disk drives in priority order Lists available removable disk drives in priority Lists available CD DVD drives in priority order Lists available USB drives in priority order Lists available network drives in priority order Lists available other drives in priority order www kontron com 99 AT8050 Software Setup 5 1 6 1 Boot Settings Configuration sub menu Enabled Allows skipping Allows denies skipping the memory tests PSU 24 during a cold boot Quick Boot enabled has no i Quick Boot Mode Allows the extended Disabled impact on a warm reset boot since then memory test to be memory is not initialized during a warm reset 5 y g executed during a cold boot Enabled Allows BIOS to If disabled the normal boot path is used bypass a failing device Enabled If enabled IPMI need to be enabled The 05 upon WD bite Progressive Boot Disabled Load Timeout watchdog will be enabledattime Note If OS Load is set to selected by user If OS load WD is disab
78. TxD20 B33 TxD2 B75 CLK1 B118 TxD13 B161 GND B34 GND B76 GND B119 GND B162 RxD20 B35 RxD3 B77 CLK2 B120 RxD13 B163 RxD20 B36 RxD3 B78 CLK2 121 RxD13 B164 GND B37 GND B79 GND B122 GND B165 TCLK N C B38 TxD3 B80 CLK3 B123 TxD14 B166 TMS N C B39 TxD3 B81 CLK3 B124 TxD14 B167 TRST N C B 2 AT8050 ron com TT B168 100 B41 ENABLE B83 126 RxD14 B169 TDI N C 42 12V B84 12V B127 RxD14 B170 GND B85 GND B128 GND Ethernet J8 8 J9 E BI_DA 1 BI_DC BI_DA 2 6 BI_DB BI_DB 3 7 BI_DD BI_DC 4 8 BI_DD B 5 USB Port 210 Erka VCC 1 DATA 2 3 GND 4 B 6 Serial Port COM1 J12 EXE X 1 5 DTR 2 6 RX TX 3 7 DSR GND 4 8 CTS B 3 AT8050 www kontron com B 7 Synchronisation Clocks Update Channel 120 ROW A ROW B ROW ROW D ROW E ROW F CLK1A CLK1A CLK1B CLK1B CLK2A CLK2A Tx4 UP Tx4 UP Rx4 UP Rx4 UP CLK3A CLK3A Tx2 UP Tx2 UP Rx2 UP Rx2 UP Tx3 UP Tx3 UP Tx0 UP Tx0 UP Rx0 UP Rx0 UP Tx1 UP Tx1 UP Tx2 45 N C Tx2 15 N C Rx2 15 N C Rx2 15 N C Tx3 15 N C TX3 15 N C TxO 15 N C TxO 15 N C RxO 15 N C Rxo 15 N C Txi 15 N C Tx1 15 N C Tx2 14 N C Tx2 14 N C Rx2 14 N C Rx2 14 N C Tx3 14 N C Tx3 14 N C TxO 14 N C TxO 14 N C
79. ables all device nodes PCI devices and PnP ISA cards It also 2A assigns PCI bus numbers Function 1 initializes all static devices that include manual configured onboard peripherals memory and 1 0 decode windows in PCI PCI bridges and noncompliant PCI devices Static resources are also reserved Function 2 searches for and initializes any PnP PCI or AGP video devices Initialize different buses and perform the following functions Boot Input Device Initialization function 3 IPL Device Initialization function 4 General Device Initialization function 5 Function 3 searches for and configures PCI input devices and detects if system has standard keyboard controller Function 4 searches for and configures all PnP and PCI boot devices Function 5 CONFIGURES all onboard peripherals that are set to an automatic configuration and configures all remaining PnP and PCI devices DD DE OEM PCI init debug POST code during DIMM init DEh during BUS number assignment and DDh during ressource allocation Hight byte is the BUS number While control is in the different functions additional checkpoints are output to port 80h as a word value to identify the routines under execution The low byte value indicates the main POST Code Checkpoint The high byte is divided into two nibbles and contains two fields The details of the high byte of these checkpoints are as follows HIGH BYTE XY The upper nibble X indicates the function number that is being
80. alid Static or DHCP XXX XXX XXX XXX XXX XXX XXX XXX The parameter selector assignments are described in IPMI Specification 2 0 table 23 3 Selector 12 Default Gateway Address Each interface has a channel number that is used when configuring the channel and for routing messages between channels Channels 01 and 02 on Base interface are available The channel number assignments are described in IPMI Specification 2 0 table 6 1 Display Valid if IPMC support LAN Channel Select whether IP Address is set static or retreive using DHCP Display the current Gateway configuration stored in IPMI NVRAM for IPMI LAN This allows setting an Gateway IP Address for LAN configuration when IP Address Source is setto static This option is hiden when DHCP source is selected VLAN ID Configuration 20 01 or 02 Valid or Invalid XXX XXXX Enabled Disabled Enabled or Disabled The parameter selector assignments are described in IPMI Specification 2 0 table 23 4 Selector 20 802 1q VLAN ID 12 bit Each interface has a channel number that is used when configuring the channel and for routing messages between channels Channels 01 and 02 on Base interface are available The channel number assignments are described in IPMI Specification 2 0 table 6 1 Display Valid if IPMC support LAN Channel This allows setting an 802 1q VLAN ID for LAN configuration Display the current 801 1q VLAN ID configuration
81. ally designed heat sink to ensure the best possible product for operational stability and long term reliability The physical size shape and construction of the heat sinks ensure the lowest possible thermal resistance Moreover the heat sinks were specifically designed to use forced airflow as found in ATCA systems 6 1 2 Temperature Sensors The AT8050 is equipped with 21 temperature sensors that are accessible via IPMI Sensors are precisely positioned near critical components to accurately measure the on board parts temperature Temperature monitoring must be exercised to ensure highest possible level of system thermal management An external system manager constitutes one of the best solution for thermal management being able to report sensor status to end user or manage events filters for example All sensors available on the AT8050 its RTM and the AMC can carry are listed into the Sensor Data Repository with their thresholds as defined by the PICMG 3 0 specification The following extract from the PICMG 3 0 Base Specification details naming convention for thresholds as well as the meaning of each threshold level IPMI non critical PICMG 3 0 minor telco minor Temperature is getting closer to operating limit it is not really a problem yet It s only a warning IPMI critical PICMG 3 0 major telco major Temperature is at or over normal operating limit but not in destructive zone Unit still operating but MTBF might be aff
82. ard in the system until it makes contact with the CPU board 5 Using both ejector handles engage the board in the CPU board connectors until both ejectors are locked 6 Fasten screws at the top and bottom of the faceplate 3 5 6 Removing the RTM8050 To remove the RTM 1 Unscrew the top and the bottom screw of the faceplate 2 Unlockthe lower handle latch 3 Waituntilthe blue LED is fully ON this mean that the hot swap sequence is ready for board removal 4 Use both ejectors to disengage the board from the CPU board 5 Pull the board out of the chassis 36 AT8050 www kontron com Chapter 4 Hardware Management 4 1 Hardware Management Overview 38 4 2 Hardware Management Functionality 38 c re 40 www kontron com 4 4 1 Hardware Management Overview The purpose ofthe hardware management system is to monitor control insure proper operation and provide hot swap support of ATCA Boards The hardware management system watches over the basic health of the system reports anomalies and takes corrective action when needed The hardware management system can retrieve inventory information and sensor readings as well as receive event reports and failure notifications from boards and other Intelligent FRUs The hardware management system can also perform basic recovery operations such as power cycle or reset of managed entitie
83. ator Bits 11 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 02h Provides a Secondary PCI Express Port 00h Single Channel Link 00h Gen1 NO SSC 02h AMC 1 PCI Express FO1h AMC Channel 1 Lane0 1 2 3 FE00302101h 3Fh 02h Provides a Secondary PCI Express Port 00h Single Channel Link 03h Gen2 SSC 02h AMC 1 PCI Express 101h AMC Channel 1 LaneO FE00202101h 3Fh 02h Provides a Secondary PCI Express Port 00h Single Channel Link 02h Gen2 NO SSC 02h AMC 1 PCI Express 101h AMC Channel 1 LaneO FE00102101h 3Fh 02h Provides a Secondary PCI Express Port 00h Single Channel Link 01h Gen1 SSC 02h AMC 1 PCI Express 1011 AMC Channel 1 LaneO FE00002101h 3Fh 02h Provides a Secondary PCI Express Port 00h Single Channel Link 00h Gen1 NO SSC 02h AMC 1 PCI Express 101h AMC Channel 1 LaneO The following table gives AMC connectivity details for Intel ICH10 SATA Controller On Carrier Device 2 AT8050 tron com Table 4 28 AMC connectivity details for Intel ICH10 SATA Controller Record Type ID Record format version Record Length Record Checksum Header Checksum Manufacturer ID PICMG Record ID Record Format Version OEM GUID Count Record Type Connected device ID AMC Channel Descriptor Count A
84. bin fashion An IPM Controller tries to alternate the transmission of messages between IPMB A and IPMB B If an IPM Controller is unable to transmit on the desired IPMB then it tries to send the message on the alternate IPMB By using this approach an IPMB can become unavailable and then available without the IPM Controller needing to take specific action 38 AT8050 www kontron com 4 2 1 2 IPMC System Manager Interface The Section 24 of IPMI 2 0 describes how IPMI messages can be sent to and from the IPMC encapsulated in RMCP Remote Management Control Protocol packets datagrams This capability is also referred to as IPMI over LAN IOL IPMI also defines the associated LAN specific configuration interfaces for setting things such as IP addresses other options as well as commands for discovering IPMI based systems The Distributed Management Task Force DMTF specifies the RMCP format This LAN communication path make the Front Blade Unit reachable to the System Manager for any management action IPMC firmware upgrade query of all FRU Data CPU reset etc without the need to go through the ShMC 42 13 IPMC System Event Log The Kontron IPMC implementation includes a Local System Event Log device as specified in the Section 31 of IPMI 2 0 The local System Event Log is a nonvolatile repository for the front board and all managed FRU events AMC RTM The local SEL provides space for more than 1024 0x03ff entries However e
85. ceplate on the RTM faceplate for asynchronous serial communications They are 160550 high speed UART compatible and support 16 byte FIFO buffers for transfer rates from 9 6Kbps to 115 2Kbps Table 2 2 Serial Interface connector Pinout RTS DTR TX GND GND RX DSR CTS NO U W ro Note Standard product uses a RJ 45 8 pins connector RI ring indicator and DCD data carrier detect signals are not available The pinout is a custom one not the same as RS 232D TIA EIA 561 Signal Path 0 1 is routed to a RJ45 the frontplate or to the for SOL COM is routed to the RTM or the AMC serial interface port is routed directly to the RTM 14 BIOS Settings 9010 System Management gt Remote Access Configuration System Management gt E Keying Configuration 2 11 AMC Mezzanine The AMC slot supports AMC 1 PCIe AMC 2 Gigabit Ethernet and AMC 3 SAS SATA in addition to the 0 base specification The AMC is hot swappable according to PICMG 3 0 Rev 2 0 and supports mid size AMC units One AMC site is available Characteristics of the AMC are as follow e Type B Support mid size single width mechanical format PCI Express X4 GEN2 2 5GTs or 5 0GTs with reference clock on AMC FCLKA 24 AT8050 www kontron com Fully compliant PCI Express hot plug support Provision for telecom clocks on TCLKA B C D SAS link from RTM connector Compliant to
86. ch Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 Oh 00h Carrier Device 0 gt Intel PCI Express Root Complex Port 3 01 F18820h OFh 03h 02h Oth 00h FE00302f00h 3Fh 02h Provides a Secondary PCI Express Port 00h Single Channel Link 03h Gen2 SSC 02h AMC 1 PCI Express FOOh AMC Channel 0 Lane0 1 2 3 FE00202f00h 3Fh 02h Provides a Secondary PCI Express Port 00h Single Channel Link 02h Gen2 NO SSC 02h AMC 1 PCI Express FOOh AMC Channel 0 Lane0 1 2 3 FEO0102f00h 3Fh 02h Provides a Secondary PCI Express Port 00h Single Channel Link 01h Gen1 SSC 02h AMC 1 PCI Express AMC Channel 0 Lane0 1 2 3 FE00002f00h 3Fh 02h Provides a Secondary PCI Express Port 00h Single Channel Link 00h Ge
87. changed The user password can be installed or changed Immediately clears the User password Controls the user access level to the BIOS Setup utility Supervisor has full access to the BIOS Setup utility No Access Prevents user access to the setup utility View Only Allows read only user access to the setup utility i e none ofthe fields can be changed Limited Allows limited fields such as date and time to be changed in user access to the setup utility Full Access Allows unlimited user access to the setup utility Execute Disable Bit allows the processor to classify areas in memory by where application code can execute and where it cannot preventing certain classes of malicious buffer overflow attacks when combined with a supporting operating system Indicates the status of thesupervisor password Indicates the status of the user password Install or change the supervisor password Install or change the user password Clears user password Controls access to the setup utility No Access Prevents user access View Only Allows read only user access Limited Allows limited fields to be changed Full Access Allows unlimited user access Enabled Allows processor to prevent application code access to certain memory areas Needs supporting OS Disabled No restrictions to application code memory area access by processor 98 AT8050 on com Software Setup 5 1 6 Boot Menu Boot
88. com Direct Clock Descriptors Count n Indirect clock Descriptor Features Dependent ClockId Features Dependent ClockId Direct clock Descriptor Clock Id Clock Control Indirect Clock Descriptors Count m Direct Clock Descriptors Count n Indirect clock Descriptor Features Dependent ClockId Features Dependent ClockId Features Dependent ClockId Features Dependent ClockId Direct clock Descriptor Clock Id Clock Control Indirect Clock Descriptors Count m Direct Clock Descriptors Count n Indirect clock Descriptor Features Dependent ClockId Features Dependent ClockId Features Dependent ClockId Features Dependent ClockId Direct clock Descriptor 0x00 0x01 0x01 0x06 0x01 0x04 0x00 0x03 0x03 0x03 0x03 0x07 0x01 0x04 0x00 0x03 0x03 0x03 0x03 7 2 Oh reserved 1 Ob Not Connected through PLL 0 1b Clock Source 7 2 Oh reserved 1 Ob Not Connected through PLL 0 1b Clock Source none Source output to TCLKA 7 1 Oh reserved 0 1b Activated by Application 7 2 Oh reserved 1 1b Connected through PLL 0 1b Clock Source 7 2 Oh reserved 1 1b Connected through PLL 0 1b Clock Source 7 2 Oh reserved 1 1b Connected through PLL 0 1b Clock Source 7 2 Oh reserved 1 1b Connected through PLL 0 1b Clock Source none Source output to TCLKC 7 10h reserved 0 1b Activated by Application 7 2 Oh reserved 1
89. contacts on a board Hold a board by its edges or by its metal mounting bracket Do not handle or store system boards near strong electrostatic electromagnetic magnetic or radioactive fields When you wantto remove the protective foil if present make sure you are properly grounded and that you touch a metalic part of the board q CAUTION A Removing the protective foil from the top and bottom cover might create static A When you remove those protections make sure you follow the proper ESD procedure 8050 www kontron com Preface Preface How to Use This Guide This user s guide is designed to be used as step by step instructions for installation and as a reference for operation troubleshooting and upgrades For the circuits descriptions and tables indicated Kontron assumes no responsibility as far as patents or other rights of third parties are concerned The following is a summary of chapter contents Chapter 1 Product Description Chapter 2 Board Features Chapter 3 Installing the board Chapter 4 Hardware Management Chapter 5 Software Setup Chapter 6 Thermal Considerations Appendix A Memory 8 1 0 Maps Appendix B Connector Pinout Appendix C BIOS Setup Error Codes Appendix D Software Update Appendix E Getting Help Appendix F Glossary xi AT8050 www kontron com Preface Customer Comments If you have any difficulties using this user s gui
90. criptor Local Clock Id 0x09 On Carrier Clock Id 9 Remote Clock Id 0x04 TCLKD 7 6 01b AMC Remote Clock Resource Id 0x45 5 4 Oh reserved 3 0 AMC Site Number 5 AMC B1 4 3 4 2 Clock Configuration Information The following table gives AMC clock connectivity details for PCIe Clock Generator On Carrier Device 0 Table 4 35 PCIe Clock Generator Record Type ID Coh Record format version 02h Record Length Calculated Record Checksum Calculated Header Checksum Calculated Manufacturer ID 00315Ah PICMG Record ID PICMG Record ID 2Dh Clock Configuration Record Record Format Version 00h lok Resource Clock Configuration Descriptor Count 0x01 Clock Configuration Descriptors Clock Id 0x00 Clock Control 0x00 7 10h reserved 0 Ob Activated by Carrier IPMC Indirect Clock Descriptors Count m 0x00 Direct Clock Descriptors Count n 0x01 Indirect clock Descriptor None Direct clock Descriptor 7 2 Oh reserved 1 Ob Not connected through PLL 0 1b Features 0x01 Clock source 77 AT8050 www kontron com Family 0x02 Reserved for PCI Express Accuracy Level OxOE Gen 2 Capable PCIe Clock Frequency 0x05F5E100 As defined in AMC 1 R2 0 Min Clock 0x05F5E100 As defined in AMC 1 R2 0 Max Clock 0x05F5E100 As defined in AMC 1 R2 0 The following table gives AMC clock connectivity details for Onboard Clock Multiplexer On Carrier Device 1 Table 4 36 0nboard Clock Multiplexer Record Type ID Coh
91. ct on your board To update your board from the update CD boot from the CD and follow the instructions provided in the AT8050 Update CD User guide provided with the CD image file A remote update procedure is also available using the HPM files This procedure has no payload impact The instructions on how to use it are provided with the HPM package The latest versions of the Update CD and HPM files are available from the Kontron Canada s FTP site ftp kontron ca support maint html D 1 AT8050 www kontron com E Getting Help If atany time you encounter difficulties with your application or with any of our products or if you simply need guidance on system setups and capabilities contact our Technical Support at North America EMEA Tel 450 437 5682 Tel 49 0 8341 803 333 Fax 450 437 8053 Fax 49 0 8341 803 339 If you have any questions about Kontron our products or services visit our Web site at www kontron com You also can contact us by E mail at North America support ca kontron com EMEA support kom 9 kontron com Or at the following address North America EMEA Kontron Canada Inc Kontron Modular Computers GmbH 4555 Ambroise Lafortune Sudetenstrasse 7 Boisbriand Qu bec 87600 Kaufbeuren J7H 0A4 Canada Germany E 1 Returning Defective Merchandise Before returning any merchandise please do one of the following Call 1Call our Technical Support department in North America at 45
92. d 00h Oh 04h Carrier Device 4 gt Onboard Fabric Channel 1 Switch 02h FFFFE7h OFh 1Fh 1Fh 1Fh 007h FFFFE8h OFh 1Fh 1Fh 1Fh 08h FC00005106h 3Fh 00h Exact match 00h Single Channel Link 00h 1000 BaseBX 05h AMC 2 Ethernet 106h AMC Channel 6 LaneO FC00005107h 3Fh 00h Exact match 00h Single Channel Link 00h 1000 BaseBX 05h AMC 2 Ethernet 107h AMC Channel 7 LaneO 72 AT8050 tron com The following table gives AMC connectivity details for Onboard Fabric Channel 2 Switch On Carrier Device 5 Table 4 31 AMC connectivity details for Onboard Fabric Channel 2 Switch Record Type ID Record format version Record Length Record Checksum Header Checksum Manufacturer ID PICMG Record ID Record Format Version OEM GUID Count Record Type Connected device ID AMC Channel Descriptor Count AMC Channel Descriptor Reserved Bits 23 20 Lane 3 Port Number Bits 19 15 Lane 2 Port Number Bits 14 10 Lane 1 Port Number Bits 9 5 Lane 0 Port Number Bits 4 0 AMC Channel Descriptor Reserved Bits 23 20 Lane 3 Port Number Bits 19 15 Lane 2 Port Number Bits 14 10 Lane 1 Port Number Bits 9 5 Lane 0 Port Number Bits 4 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 AMC Link Descriptor Reserved Bi
93. d This configuration requires a remote terminal that must be connected to the board through a serial communication link 5 3 1 Requirements The terminal should emulate VT100 or an ANSI terminal Terminal emulation programs such as TelixO HyperTherminal Windows minicom Linux ProcommO Windows can also be used 5 3 2 ANSI and VT100 Keystroke Mapping Up lt ESC gt A Down lt ESC gt B Right lt ESC gt C Left lt ESC gt D Home lt ESC gt H End lt ESC gt K F1 lt ESC gt OP F2 lt 5 gt 00 lt ESC gt OR F4 lt 5 gt 0 114 8050 www kontron com Software Setup 5 3 3 VT UTF8 Keystroke Mapping The following escape sequences are defined in the Conventions for Keys Not in VT100 Terminal Definition and ASCII Character Set section of Standardizing Out of Band Management Console Output and Terminal Emulation VI UTF8 and VT100 available for download at microsoft com F1 Key F2 Key F3 Key F4 Key F5 Key F6 Key F7 Key F8 Key F9 Key F10 Key F11 Key F12 Key Alt Modifier Control Modifier Home Key End Key Insert Key Delete Key Page Up Key Page Down Key lt ESC gt 1 lt 5 gt 2 lt 5 gt 3 lt 5 gt 4 lt 5 gt 5 lt 5 gt 6 lt 5 gt 7 lt 5 gt 8 lt 5 gt 9 lt 5 gt 0 lt ESC gt lt 5 gt lt gt lt 5 gt lt ESC gt h lt ESC gt k lt ESC gt lt ESC gt lt ESC gt lt ESC gt These
94. d boot device 1st Drive Varies Specifies the boot priority ofthe available devices Select the boot Specifies the boot priority of the available CD device with UpArrow or or DVD devices DownArrow key Press Enterto setthe selection as the intended boot device Nth Drive Varies 5 1 6 6 USB Disk Drives sub menu Specifies the boot priority ofthe available devices Select the boot Specifies the boot priority ofthe available USB device with UpArrow Disk devices DownArrow key Press Enterto setthe selection as the intended boot device 1st Drive Varies Specifies the boot priority ofthe available devices Select the boot Specifies the boot priority of the available USB device with UpArrow or Disk devices DownArrow key Press Enterto setthe selection as the intended boot device Nth Drive Varies 102 AT8050 www k on com Software Setup 51007 Network Disk Drives sub menu Specifies the boot priority ofthe available devices Select the boot dst Drive Varies Specifies the boot priority of the available device with UpArrow or Network Disk devices DownArrow key Press Enterto setthe selection as the intended boot device Specifies the boot priority ofthe available devices Select the boot Specifies the boot priority of the available device with UpArrow or Venes Network Disk devices DownArrow key Press Enter to set the selection as the intended boot device 5 1 6 8 All Oth
95. de discover an error or just want to provide some feedback please send a message to Tech Writer Q ca kontron com Detail any errors you find We will correct the errors or problems as soon as possible and postthe revised user s guide on our Web site Thank you Advisory Conventions Seven types of advisories are used throughout the user guides to provide helpful information or to alert you tothe potential for hardware damage or personal injury They are Note Signal Paths Jumpers Settings BIOS Settings Software Usage Cautions and Warnings The following is an example of each type of advisory Use caution when servicing electrical components Note 2 Indicate information that is important for you to know Signal Path Indicate the places where you can fin the signal on the board 2221 Jumper Settings PT Indicate the jumpers that are related to this sections ats BIOS Settings 0 010 Indicate where you can set this option in the BIOS P Software Usage Indicates how you can access this feature through software WARNING Indicates potential for bodily harm and tells you how to avoid the problem 1 CAUTION 1 N Indicate potential damage to hardware and tells you how to avoid the problem A product in order to ensure product integrity at all times Please read also the section Special Handling and Unpacking Instructions CE Conformity This symbol indicates that the product described in this manualis in compl
96. described in this section is based on 105 Version 3 00 The options and default settings may change in a new BIOS release Pe CAUTION These parameters have been provided to give control over the system However the A values for these options should be changed only if the user has a full understanding of the timing relationships involved Note All options in Bold are the default settings Pu WARNING BIOS V3 00 and highier is required to operate the board with a 5600 series processor A 85 AT8050 www kontron com Software Setup 5 1 2 Menu Bar The Menu Bar at the top of the window lists these selections Main Use this menu for basic system configuration Advanced Usethis menu to set the Advanced Features available on your system Security Use this menu to configure Security features Boot Usethis menu to determine the booting device order System Management Usethis menu to set and view the System Managment on your system Exit Usethis menu to choose Exits option Use the left and right arrows keys to make a selection Use the keys listed in the legend bar on the bottom to make your selections or exit the current menu The chart on the following page describes the legend keys and their alternates F1 General Help windows Esc Exit this menu gt arrow keys Select a different menu Home or End Move cursor to top or bottom of window lt PgUp gt
97. detected 5 14 8 USB Mass Storage Device Configuration sub menu Device 1 6 Mass Storage Device identification If Auto USB devices less Auto If Auto USB devices less than 530MB will be etree is be and Emulation Type for each Floppy remeimmg as here remaining as Forced FDD drive Forced FDD option can be used to force a 9 oe i HDD formatted drive to boot as FDD Ex ZIP FOD e paran cn Hard Disk no i be used to force a HDD CDROM formatted drive to boot as FDD 5 1 4 9 Advanced Chipset Control sub menu CPU Bridge Configuration N A Select sub menu Northbridge Configuration N A Select sub menu N A Enabled Allows setting of Clock Spread Spread Spectrum Clocking Enabled Allows BIOS to set Clock Spread Spectrum for RS Disabled EMI electromagnetic interference control contral D i Denies setting of Clock Spread Spectrum for EMI control 96 AT8050 www k on com Software Setup 5 1 4 9 1 CPU Meis lis sub menu CPU Revision Display CPU revision ID Show only Current QPI Frequency Display Current frequency speed in GT s Show only Current Memory Lays Frequency N A Display current memory speed DDR 3 in MHz Show only Allows override selection of the DDR3 refresh rate for normal 5 operation D DDR3 2x Refresh Rate Enabled use the 2 refresh rate for high temperature Disabled use normal 1x refresh rate 5 1 4 9 2 sub m
98. e CMOS Setup JP1 5 6 Reserved Reserved JP1 7 8 Reserved Reserved JP1 9 10 Reserved Reserved JP1 11 12 Reserved Reserved JP1 13 14 Watchdogs When On it disables the watchdogs JP2 1 2 Shelf Manager Activation When On it overrides the Shelf Manager activation 2 3 4 IPMI When On it resets the IPMC JP2 5 6 AMC amp RTM Activation When On it overrides the AMC amp RTM activation JP2 7 8 Reserved Reserved JP2 9 10 Reserved Reserved JP2 11 12 Reserved Reserved JP2 13 14 3 1 2 Setting Jumper amp Locations Figure 3 1 Jumper Settings and Locations JUMPER SETTINGS e Default Setting O JP1 1 2 FW Write Protect JP2 1 2 Watchdogs Protected Disabled in O JP1 3 4 FPGA PROM Selection O JP2 3 4 Shelf Manager Activation Factory Prom in Override Normal out Normal Operation O JP1 5 6 Clear CMOS Setup 2 5 6 IPMI Clear CMOS 9 Normal Operation O JP1 7 8 Reserved Reserved Reserved 3 1 9 10 Reserved Override 9 Normal JP2 7 8 AMC amp RTM Activation Override in Normal Operation out O JP2 9 10 Reserved Reserved in Reserved Reserved out 9 Reserved JP1 11 12 Reserved O JP2 11 12 Reserved Reserved in Reserved in Reserved Reserved out JP1 13 14 Reserved Reserved Reserved Tu O JP2 13 14 Reserved J 8 Reserved in rm Reserved out 4 h Note
99. eO FC00005105h 3Fh 00h Exact match 00h Single Channel Link 00h 1000 BaseBX 05h 2 Ethernet 105h AMC Channel 5 LaneO AT8050 tron com The following table gives AMC connectivity details for Onboard Fabric Channel 1 Switch On Carrier Device 4 Table 4 30 AMC connectivity details for Onboard Fabric Channel 1 Switch Record Type ID Record format version Record Length Record Checksum Header Checksum Manufacturer ID PICMG Record ID Record Format Version OEM GUID Count Record Type Connected device ID AMC Channel Descriptor Count AMC Channel Descriptor Reserved Bits 23 20 Lane 3 Port Number Bits 19 15 Lane 2 Port Number Bits 14 10 Lane 1 Port Number Bits 9 5 Lane 0 Port Number Bits 4 0 AMC Channel Descriptor Reserved Bits 23 20 Lane 3 Port Number Bits 19 15 Lane 2 Port Number Bits 14 10 Lane 1 Port Number Bits 9 5 Lane 0 Port Number Bits 4 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 02h Calculated Calculated Calculated 00315Ah 19h AMC Point To Point Connectivity Recor
100. eactivate RTM only Pg FRU2 Deactivate FRU2 or Gracefull Shutdown Front Board RTM On RTM Disk Deactivation Deactivate FRUO RTM Disk Deactivation Policy Deactivate RTM Deactivate FRU3 Disk only or Gracefull Shutdown Front Board RTM disk 112 AT8050 www k on com Software Setup 5 1 8 Exit Menu Exit system setup saving CE Saves modified settings into non volatile Exit Saving Changes N A memory and reboots the system changes to non volatile memory Discards modifications to settings and reverts Exit Discarding Changes N A tothe state when Setup was entered then EAD yaam AS without saving changes complete remaining POST Load Setup Defaults N A Loads the factory default settings Load default settings Discard Changes N A Discards modifications to settings and reverts Discard changes without tothe state when Setup was entered exiting setup Exits the Setup utility without saving any changes and then performs a Rollback of the Exit amp Execute N A on board BIOS chips If the currently Rollback BIOS without BIOSRollback executing BIOS was the primary BIOS the saving any changes system would change to the backup BIOS and vice versa 5 2 Boot Utilities AMI Boot Utilities are Boot Menu POP UP Boot Menu POP UP is a boot screen that displays a selection of boot devices from which you can boot your operating system 5 2 1 X Entering BIOS Setup Menu Pressin
101. ected 117 AT8050 www kontron com Thermal Considerations IPMI non recoverable PICMG 3 0 critical telco critical Temperature has reached a destructive level Device might be damaged Most ATCA chassis react to temperature events in the following manner When a minor threshold is reached the shelf manager will incrementally increase airflow fan speed to bring the temperature below the crossed threshold When a major threshold is reached the shelf manager will increase the fans to maximum speed When a critical threshold is reached the shelf manager will shutdown the blade to prevent damage The shelf alarm panel when available can inform the operator with LEDs when an alarm minor major critical is raised Refer to your chassis documentation to adapt and optimize your temperature monitoring application to chassis capabilities See also System Airflow section for more information Below is the list of temperature sensors with their respective thresholds Table 6 1 Temperature Sensors Thresholds Lower Thresholds Upper Thresholds Minor Major Critical Minor Major Critical Temp 48V A Feed N A 0 10 C 75 C 85 C 110 C Temp 48V B Feed N A 0 10 C 475 C 85 C 110 C Temp Mez 12V Out N A 0 10 75 C 85 C 110 C Temp CPU 5 C 0 10 C 779 TCC 5 C 125 C Temp Vcore 35 C 40 C 50 C 75 C 85 C 95 C Temp VDDQ 35 C 40 C 50 C 475 C 85 C 95 C Temp IOH 10 C 5 5 75
102. ectivity Record Table Record Type ID Coh Record format version 02h Record Length Calculated Record Checksum Calculated Header Checksum Calculated Manufacturer ID 00315Ah PICMG Record ID PICMG Record ID 2Ch Carrier Clock Point To Point Connectivity Record Record Format Version 00h Clock Point To Point Resource Descriptor Count m 0x02 Clock Point To Point Resource Descriptor 7 6 00b On Carrier device Clock Resource Id 0x00 5 4 Oh reserved 3 0 On Carrier Device 0 PCIe clock generator Clock Point to Point Connection Count 0x01 Point to Point Clock Connection descriptor Local Clock Id 0x00 On Carrier Clock Id 0 Remote Clock Id 0x05 0 R2 0 FCLKA clock 7 6 01b Remote Clock Resource Id 0x45 5 4 Oh reserved 3 0 AMC Site Number 5 AMC B1 Clock Point To Point Resource Descriptor 75 AT8050 www kontron com 7 6 00b On Carrier device Clock Resource Id 0x01 5 4 Oh reserved 3 0 On Carrier Device 1 Clock Mux Clock Point to Point Connection Count Point to Point Clock Connection descriptor Local Clock Id 0x00 On Carrier Clock Id 0 Remote Clock Id 0x01 CLK1A 7 6 10b Backplane clock Remote Clock Resource Id 0x80 5 4 Oh reserved 3 0 Oh Point to Point Clock Connection descriptor Local Clock Id 0x01 On Carrier Clock Id 1 Remote Clock Id 0x02 CLK1B 7 6 10b Backplane clock Remote Clock Resource Id 0x80 5 4 Oh reserved 3 0 Point to Point Clock Connection descri
103. edges 32 AT8050 www kontron com 3 3 2 Installing Memory anti static plane place the board so that you are facing the front plate connectors Remove the memory protection top cover Insert the memory module into any available socket aligning the notches on the module with the socket s key inserts 1 Insert the memory module in the connector using your thumbs 2 Eject partially the memory module using the connector latches while applying some pressure on the top to avoid the full removal of the modules 3 Fully Reseat the modules in the connector using your thumbs 4 Repeat steps 2 and 3 a second time 5 Push down the memory module until the retaining clips lock on each side Repeat these steps to populate the other socket To remove a memory module from a socket push sideway the retaining clips on each side ofthe socket to release the module Pull out the memory from the socket 33 AT8050 www kontron com 3 4 Onboard Connectors and Headers Table 3 3 0nboard Connectors and Headers Description Connector Comments Post Codes J2 Post Code Connector AMC J5 AMC Connector Ethernet Port 1 J8 RJ 45 Ethernet Connector Ethernet Port 0 J9 RJ 45 Ethernet Connector USB 2x Stacked J10 Two stacked USB connectors Serial Port COM1 J12 RJ 45 Serial Port connector DDR3 Memory Sokcets J13 J18 Memory Sockets Synchronisation Clcocks Update J20 Channel US
104. edure the management power is disabled only when the RTM8050 is removed This procedure meets the AdvancedTCA AMC behavior 16 3 1 Inserting the RTM8050 into the slot The presence of the RTM is indicated by one signal The front blade IPMC recognizes the RTM insertion when the signal 15 low After recognizing the RTM the IPMC turns the blue LED ON and enables the management power to the RTM Once the IPMB L link is working the IPMC accesses the MMC to retrieve FRU data After knowing the type of RTM inserted the IPMC negotiates with the shelf manager in order to activate the 12V payload power After RTM local voltages have been ramped up the RTM s MMC enables the RTM Link After this the front board IPMC informs the shelf manager there is a functional RTM blade present 1 6 1 3 2 Removing the RTM8050 from the slot signal goes HIGH by opening the RTM lower ejector handle This indicates to the front blade IPMCthat a hot swap action is going to take place The IPMC then negotiates the removal with the System manager and if itis granted it proceeds with the removal process The IPMC proceeds to the deactivation by disabling ekey governed links the IPMC then disables the RTM Link and turns OFF the payload 12V power When it is safe to remove the RTM blade from the slot the IPMC turns the Blue Hot Swap LED ON Front Blade IPMC turns OFF the management power only when there is no RTM detected RTM8050 removed fro
105. ensor specific see OEM sensor table Sensor type code D1h for sensor definition Actual power good status Sensor type 08h Power Supply Event Reading type 65 Power Good Discrete code 77h see OEM sensor table Event Reading type code 77h for sensor definition Power good status event that occur since the last power on or reset Sensor type 66 Power Good Event Discrete 08h Power Supply Event Reading type code 77h OEM see OEM sensor table Event Reading type code 77h for sensor definition Board reset type and sources Sensor type CFh OEM Kontron Reset Sensor 67 Board Reset Discrete Event Reading type code 03h Digital Discrete offset 0 1 are used see OEM sensor table Sensor type code CFh for sensor definition Show current postcode value No event generated by this sensor Sensor type C6h OEM Kontron POST value sensor Event Reading type code 6Fh Sensor specific offset 0 to 7 and 14 are used see OEM sensor table Sensor type code C6h for sensor definition 68 POST Value Discrete Boot Error Sensor Type 1Eh Boot Error 69 Boot Error Discrete Reading type code 6Fh Sensor Specific only offset 0 is used see IPMI v1 5 table 36 3 Sensor type code 1Eh for sensor definition CPU Power On Self Test Error Sensor type OFh System Firmware Progress Event Reading type code 6Fh Sensor specific only offset 0 is used see IPMI v1 5 table 36 3 Sensor type code OFh System Firmware Progress for sensor definition 70 P
106. ensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event DIMM 2 Temperature Degrees Sensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event DIMM 3 Temperature Degrees Sensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event DIMM 4 Temperature Degrees Sensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event DIMM 5 Temperature Degrees Sensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event DIMM 6 Temperature Degrees Sensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event Disk Temperature Degrees Sensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event Power consumption in watts of the complete blade including managed FRU Sensor type OBh Other Unit Based Sensor Watt Event Reading type code 01h threshold base see IPMI v1 5 section 29 13 3 for threshold based event 50 AT8050 tron com FRU 1 AMC B1 Power consumption in watts Sensor type OBh Other Unit Based
107. enu NB Revision Display Current NB revision ID Show only Current QPI Frequency Display Current frequency speed in GT s Show only Intel QuickData Intel QuickData Enabled Enable special setting to made available the Technology Direct Technology DMA Disabled Direct Memory Access Memory Access configuration Intel QuickData Intel QuickData Enabled Enable special setting to made available the Technology Direct Technology DCA Disabled Direct Cache Access Cache Access configuration 5 1 4 10 Intel VT d Configuration Sub Menu Enabled allow DMAR Enable VT d feature from INTEL This willadd table to be present in Enabled table in ACPI to allows supporting OSto ACPI table for Disabled take advantage of the Virtualization virtualization Technology for Directed 1 0 Disabled DMAR table is not present 5 1511 1 0 Virtualization Sub Menu 3 Options SR IOV Supported Picabled Disabled Enabled Enabled 97 AT8050 www k on com Software Setup 5 1 5 Security Menu Supervisor Password User Password Set Supervisor Password Set User Password Clear User Password User Access Level Execute Disable Bit Installed Not Installed Installed Not Installed Enter Enter Enter No Access View Only Limited Full Access Enabled Disabled Indicates the status of the Supervisor Password Indicates the status of the User Password The supervisor password can be installed or
108. er Disk Drives sub menu Specifies the boot priority of the available devices Select the boot Specifies the boot priority of any other device with UpArrow or 1st Drive Varies available devices other than Hard Disk DownArrow key Press Removable CD DVD USB disk or Network PAPC to eE EON as the intended boot device Specifies the boot priority ofthe available devices Select the boot Specifies the boot priority of any other device with UpArrow or Nth Drive Varies available devices other than Hard Disk 2 DownArrow key Press Removable CD DVD USB disk or Network ErtertosettheselscHon asthe intended boot device 103 AT8050 www k on com Software Setup 5 1 7 System Management Menu Remote Access Configuration N A Selects sub menu N A IPMI over LAN and Set LAN Configuration N A Selects sub menu Serial Over LAN Watchdog Timers N A Selects sub menu N A System Information N A Selects sub menu N A Managed FRU Deactivation Policies N A Selects sub menu N A OEM e keying Confiuraton N A Selects sub menu N A 5141 Remote Access Configuration sub menu Configures serial port for console redirection Serial Port Number me Also used for Headless operation mode E d through ACPI Serial Port 1 1 0 address 3F8 IRQ4 a MUS N A display only Displays the hardware address of the COM 2 Serial Port 2 I 0 address 2F8 IRQ3 porti e RTM serial port N A d
109. ernal Diagnostic Internal Management Controller firmware diagnostic Sensor type COh Kontron OEM Firmware Info Event Reading type code 75h Kontron OEM Internal 103 IPMIInfo 2 Discrete Diagnostic see OEM table Sensor type code COh Kontron OEM Firmware Info for sensor definition and Event Reading type code 70h ontron OEM Internal Diagnostic 53 7 2 IPMC Health Indicator Sensor Aggregation The following table shows the sensors involved in the health sensor aggregation Table 4 18 IPMC Health Indicator Sensor Aggregation Table 5 Temp 48V A Feed 6 Temp 48V B Feed 7 Temp 12V Out 8 Temp VDDQ 9 Temp Vcore 10 Temp IPMC 11 Temp IOH 12 Temp ICH 13 Temp Mngt Lan 14 Temp BI Lan 15 Temp FI Lan 16 Temp Bay Inlet 17 Temp CPU 18 Temp DIMM 1 19 Temp DIMM 2 20 Temp DIMM 3 21 Temp DIMM 4 22 Temp DIMM 5 23 Temp DIMM 6 25 Brd Input Power 56 AT8050 ntron com 26 AMC Power 27 RTM Power 28 Vcore Power 29 Vddq Power 30 Vcc Mez Hold UP 31 Vcc 1 0V SUS 32 1 2V SUS 33 Vcc 1 8V SUS 34 Vcc 3 3V SUS 35 Vcc 5V SUS 36 Vcc 12V SUS 37 Vtt 38 Vcc VttDdr 39 Vcc Vcore 40 Vcc 1 1V 41 Vcc 1 2V 42 Vcc 1 5V 43 Vcc 1 8V 44 Vcc 3 3V 45 5V 46 Vcc 2 5V REF 47 Vcc 1 8V CPU 48 Vddq 49 Vcc 48V Feed 50 Vcc 48V B Feed 51 Feed A B Status 58 Fuse Pres A Feed 59 Fuse Pres B Feed 60 Fuse RTN A Feed 61 Fuse RTN B Feed 62 Fuse Earl A Feed 63 Fuse Earl B
110. erties 3 11 PICMG 00h M Yes Get Address Info 3 10 PICMG 01h M Yes Get Shelf Address Info 3 16 PICMG 02h 0 Yes Set Shelf Address Info 3 17 PICMG 03h 0 No FRU Control 3 27 PICMG 04h M Yes Get FRU LED Properties 3 29 PICMG 05h M Yes eni va 3 30 PICMG 06h M Yes Set FRU LED State 3 31 PICMG 07h M Yes Get FRU LED State 3 32 PICMG 08h M Yes Set IPMB State 3 70 PICMG 09h M Yes Set FRU Activation Policy 3 20 PICMG OAh M Yes Get FRU Activation Policy 3 21 PICMG OBh M Yes Set FRU Activation 3 19 PICMG oCh M Yes 3 39 PICMG ODh M Yes Set Port State 3 59 PICMG OEh 0 M Yes Get Port State 3 60 PICMG OFh 0 M Yes 46 AT8050 tron com Compute Power Properties iG mu Set Power Level 3 84 PICMG 11h M Yes Get Power Level 3 83 PICMG 12h M Yes Renegotiate Power 3 91 PICMG 13h 0 No M Get Fan Speed Properties 3 86 PICMG 14h Set Fan Level 3 88 PICMG 15h 0 M No Get Fan Level 3 87 PICMG 16h 0 M No Bused Resource 3 62 PICMG 17h 0 M Yes Get IPMB Link Info 3 68 PICMG 18h 0 Yes Get Shelf Manager IPMB Address 3 38 PICMG 1Bh M No Set Fan Policy 3 89 PICMG 1Ch M No Get Fan Policy 3 90 PICMG 1Dh M No FRU Control Capabilities 3 29 PICMG 1Eh M Yes FRU Inventory Device Lock Control 3 42 PICMG 1Fh M No FRU Inventory Device Write 3 43 PICMG 20h M No Get Shelf Manager IP Addresses 3 36 PICMG 21h M No Get Shelf Power Mlocaton 3 85 PICMG 22h M No Get Telco Alarm Capability
111. escape sequences are supported by VT UTF8 compliant terminal connections such as Windows Server 2003 Emergency Management Services EMS AMIBIOSS Serial Redirection supports these key sequences under two configurations Terminal Type setup question is set to VT UTF8 Terminal Type setup question is set to VT100 or ANSI and VTUTF8 Combo Key Support setup question is set to Enabled 115 AT8050 www kontron com Chapter 6 Thermal Considerations 6 1 Thermal Monitoring 117 116 AT8050 www kontron com Thermal Considerations 6 Thermal Considerations The following chapter provide system integrators with the necessary information to satisfy thermal and airflow requirements when using the AT8050 6 1 Thermal Monitoring To ensure optimal operation and long term reliability of the AT8050 all on board components must remain within the maximum temperature specifications The most critical components on the AT8050 are the processor the memory modules and the chipset Operating the AT8050 above the maximum operating limits will result in application performance degradation e g the processor might throttles if it overheats or may even damage the board To ensure functionality at the maximum temperature the blade supports several temperature monitoring and control features 6 1 1 Heat Sinks Multiple key components of the AT8050 are equipped with a specific
112. escriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 07h gt Virtual On Carrier Device 7 RTM 07h gt Virtual On Carrier Device 7 RTM Bh 000003h Oh Oh Oh 03h gt Carrier Device 3 Intel 82576EB NC front rear 002103h Oh th th 03h gt Carrier Device 3 Intel 82576EB NC front rear 004285h Oh 2h 2h 85h gt AMC Site 5 AMC B1 006385h Oh 3h 3h 85h gt AMC Site 5 AMC B1 008000h Oh 4h Oh 00h gt Carrier Device 0 Intel IOH PCI Express Root Complex Port 3 00a100h Oh 5h th 00h gt Carrier Device 0 Intel IOH PCI Express Root Complex Port 3 Point to Point Port Descriptor 00c200h Reserved Bits 23 18 Oh Local Port Bits 13 17 6h 65 AT8050 tron com Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18
113. ete Management sub system health non volatile memory error Sensor type 28h Management Subsystem Health Event Reading type code 6Fh Sensor specific only offset 1 is used see IPMIv1 5 table 36 3 Sensor type code 28h for sensor definition Specify if the status of the SEL Cleared Almost Full Full Sensor type 10h Event Logging Disable Event Reading type code 6Fh Sensor specific only offset 2 4 5 are used see IPMI v1 5 table 36 3 Sensor type code 10h Event Log Disable for sensor definition 98 IPMC Storage Err Discrete 99 IPMC SEL State Discrete 55 AT8050 tron com Provides status on the chipset Management Engine Sensor type 28h Management Subsystem Health Event Reading type code OAh Generic Discrete offset 2 6 8 are used see IPMI v1 5 table 36 2 event reading type code OAh for sensor definition 100 ME Availability Discrete Reflects on board jumper presence Sensor type D3h OEM Kontron OEM Jumper Status 101 Jumper Status Discrete Event Reading type code 6Fh Sensor specific offsets 0 to 14 are used see OEM table Sensor type code D3h Kontron OEM Jumper Status for sensor definition Internal Management Controller firmware diagnostic Sensor type COh Kontron OEM Firmware Info Event Reading type code 70h Kontron OEM Internal 102 IPMIInfo 1 Discrete Diagnostic see OEM table Sensor type code COh Kontron OEM Firmware Info for sensor definition and Event Reading type code 70h ontron OEM Int
114. executed X can be from Oto 7 0 func 0 disable all devices on the BUS concerned 1 func 1 static devices initialization on the BUS concerned 2 func 2 output device initialization on the BUS concerned 3 func 3 input device initialization on the BUS concerned 4 func 4 IPL device initialization on the BUS concerned 5 func 5 general device initialization on the BUS concerned 6 func 6 error reporting for the BUS concerned 7 func 7 add on ROM initialization for all BUSes 8 func 8 BBS ROM initialization for all BUSes The lower nibble Y indicates the BUS on which the different routines are being executed Y can be from 0 to 5 C 4 AT8050 www kontron com 0 Generic DIM Device Initialization Manager 1 On board System devices 2 ISA devices 3 EISA devices 4 5 PnP devices 5 PCI devices C 4 Memory Initialization ERROR Code E8 Memory Error No memory installed EA Memory Error DDR3 Initialisation EB Memory Error Memory test ED Memory Error RDIMMs and UDIMMs are mixed EE Memory Error Invalid Memory Population EF Memory Error Memory structure problem C 5 AT8050 www kontron com D Software Update To update the board software it is recommended to use the Kontron update CD A version of this CD can be found on the CD DVD provided with your board or on the Kontron Canada s FTP site Updating your board with this Update CD will have a payload impa
115. f the USB Flash Module remains active the Master Boot Record will be installed on it by default This can not be avoided and will cause the OS to be unable to boot when booting from the HDD 2 5 X Serial ATA Serial Attached SCSI 2 5 1 Serial Attached SCSI LSISAS1064e is PCI e rev 1 1 This option is only available through a combination of the RTM8050 and AT8050 on which the controller resides Two SAS ports are routed from the RTM8050 to the AMC Bay more details in the AMC Mezzanine section below The RTM8050 features a SAS controller the LSISAS1064e is PCI e rev 1 1 which interfaces with the AT8050 by a dedicated PCI Express connection or through the Update Channel Interface such as the Kontron carrier AMC AT8402 If the RTM controller is used a SAS or SATA hard drive can be located in the AT8050 AMC bay or in the RTM8050 Hard Disk tray but thermal restrictions on the type of supported hard drives applies standard 15mm SAS drives with 60 Celsius maximum Tcase are not supported over specified operating 12 AT8050 www kontron com temperature The SAS controller can on a AMC carrier blade connected to the AT8050 through x4 PCIExpress in the Update Channel Interface See the AMC carrier blade s specification for more information about its storage capabilities and restrictions 2 5 2 Serial ATA ICH10R SATA ports are locally available from the AT8050 One ICH10R SATA port is connected to the AMC Port 2 through a multiplexe
116. g DEL or F4 from a console redirection during POST enters BIOS Setup 5 2 2 Boot Menu POP UP Pressing lt F11 gt or F3 from a Console Redirection terminal displays the Boot Menu POP UP with these options 1 Loadthe operating system from a boot device of your choice 2 Boot Menu POP UP with lt ESC gt and load the operating system from the boot devices in the order specified in Setup 5 2 3 SAS Option ROM To access the SAS Option ROM follow the procedure listed below 1 Option ROM for SAS needs to be enabled and the RTM must be present 2 Press F3 to select the boot device 3 Press CTRL C during the execution of the option ROM 113 AT8050 www kontron com Software Setup 4 BIOS mention Please wait invoking SAS Configuration Utility ST Corp Configuration Utility will load after initialization 5 Select SCSI LSI MPI Boot Support in Popup menu The menu is now available 5 2 4 BOOT Menu POP UP The BOOT Menu POP UP expands your boot options by letting you choose your boot device which could be a hard disk floppy disk CDROM Flash Disk SCSI or LAN You can select your boot device in Setup or you can choose a different device each time you boot during POST by selecting your boot device in the Boot device lt F11 gt or lt F3 gt from a Console Redirection terminal 5 3 Console Redirection VT100 Mode The VT100 operating mode allows remote setup of the boar
117. h ejector handles engage the board in the backplane connectors until both ejectors are locked 6 Fasten screws at the top and bottom of the faceplate 3 5 2 Removing Board If you would like to remove a card from your chassis please follow carefully these steps 1 Unscrew the top and the bottom screw of the front panel 2 Unlockthe lower handle latch depending on the software step this may initiate a clean shutdown of the operating system 3 Waituntil the blue LED is fully ON this mean that the hot swap sequence is ready for board removal 4 Use both ejectors to disengage the board from the backplane 5 Pull the board out of the chassis 35 AT8050 www kontron com 3 5 3 Installing an AMC To install an AMC 1 Remove the AMC filler panel 2 Carefully engage the AMC into the card guide Push the AMC until it fully mate with its connector Secure the AMC handle to the locking position 3 In normal condition the blue LED shall turn ON as soon as the AMC is fully inserted It will turn OFF at the end of the hot swap sequence 3 5 4 Removing an AMC To remove an AMC 1 Pull outthe handle to unlock the AMC 2 Waitforthe blue LED to turn on continuously 3 Pull out the AMC using the handle 3 5 5 Installing the RTM8050 To install the RTM 1 Removethe filler panel of the slot 2 Ensurethe board is configured properly 3 Carefully align the PCB edges in the bottom and top card guide 4 Insertthe bo
118. hange for sensor definition General health status Aggregation of critical sensor This list is flexible and could be adjust based on customer requirements Sensor type 24h Platform Alert Event Reading type code 03h Digital Discrete offset 0 1 are used see IPMI v1 5 table 36 3 Sensor type code 24h for sensor definition 0 fault detection sensor Sensor type F1h PICMG Physical IPMB 0 Event Reading type code 6Fh Sensor specific See PICMG 3 0 R3 0 Table 3 69 Physical IPMB 0 event message IPMB L branch from FRUO fault detection sensor Sensor type C3h Kontron IPMB L link state Event Reading type code 6Fh Sensor specific offset 2 and 3 are used see OEM table Sensor type code C3h Kontron OEM IPMB L Link State for sensor definition IPMB L branch from FRU1 fault detection sensor Sensor type C3h Kontron IPMB L link state Event Reading type code 6Fh Sensor specific offset 2 and 3 are used see OEM table Sensor type code C3h Kontron OEM IPMB L Link State for sensor definition IPMB L branch from FRU2 fault detection sensor Sensor type C3h Kontron IPMB L link state Event Reading type code 6Fh Sensor specific offset 2 and 3 are used see OEM table Sensor type code C3h Kontron OEM IPMB L Link State for sensor definition 54 AT8050 tron com FRU Over Current Sensor Sensor type CBh Kontron OEM FRU Over Current Event Reading type code
119. iance with all applied CE standards Please refer also to the section Regulatory Compliance Statements in this manual ESD Sensitive Device This symbol and title inform that electronic boards and their components are sensitive to static electricity Therefore care must be taken during all handling operations and inspections of this Disclaimer We have tried to identify all situations that may pose a warning or a caution condition in this user s guide However Kontron does not claim to have covered all situations that might require the use of a Caution or a Warning xii AT8050 www kontron com Preface Unpacking Follow these recommendations while unpacking Remove all items from the box If any items listed on the purchase order are missing notify Kontron customer service immediately e Inspect the product for damage If there is damage notify Kontron customer service immediately Save the box and packing material for possible future shipment Powering Up the System Before any installation or setup ensure that the board is unplugged from power sources or subsystems If you encounter a problem verify the following items Make sure that all connectors are properly connected Verify your boot devices e If the system does not start properly try booting without any other I 0 peripherals attached including AMC adapters Make sure your system provides the minimum DC voltages required at the board s slo
120. ices per interface Fastbi directional Isochronous asynchronous interface 480 Mbs transfer rate Standardization of peripheral interfaces into a single format Retro compatible with USB 1 1 devices USB supports Plug and Play and hot swapping operations OS level These features allow USB devices to be automatically attached configured and detached without reboot or running setup Table 2 1 USB Connector Pinout VCC DATA DATA GND Signal Path 2 USB 2 0 on front panel 210 2 USB 2 0 on the RTM front panel BR WwW wits BIOS Settings MT Advanced USB Configuration 11 AT8050 www kontron com 2 4 USB Flash Module The AT8050 supports Solid State Drive It is flash disk module with a USB 2 0 interface The module is socketed on a 2x5 header attached to the AT8050 PCB Here are the main features Many available sizes Mean Time Between Failures MTBF of 5 millions hours 5 Years Useful Life under specific conditions Read throughput of 28MB second Write throughput of 20MB second 1 0 Operations per second of 100 4KB random 2 Read 1 Write 5V operating voltage 0 to 70 Celsius operating temperature Signal Path USB Flash Module Connector is available J22 ats BIOS Settings 0101 Advanced USB Configuration Boot gt USB drives to deactivate Note 2 During the installation of an OS on a HDD the USB Flash Module must be deactivated I
121. iguration Command N A display only Enter Channel Number for SET LAN Config Command Proper value 01 or 02 N A display only Select IP Address Source Static or DHCP N A display only Enter IP Address in decimal in the form of XXX XXX XXX XXX XXX less than 256 and in decimal only 105 AT8050 ron com Software Setup 5 1 7 4 LAN Parameter Selector Channel Number Channel Status Current MAC Address LAN Parameter Selector Channel Number Channel Status IP Address Source Current Subnet Mask Subnet Mask MAC Address Configuration sub menu 05 01 or 02 Valid or Invalid XX XX XX XX XX X X The parameter selector assignments are described in IPMI Specification 2 0 table 23 4 Selector 05 MAC Address Each interface has a channel number that is used when configuring the channel and for routing messages between channels Channels 01 and 02 on Base interface are available The channel number assignments are described in IPMI Specification 2 0 table 6 1 Display Valid if IPMC support LAN Channel Display the current MAC Address stored in IPMI NVRAM for IPMI LAN Subnet Mask Configuration sub menu 06 01 or 02 Valid or Invalid Static or DHCP XXX XXX XXX XXX XXX XXX XXX XXX The parameter selector assignments are described in IPMI Specification 2 0 table 23 4 Selector 06 Subnet Mask Each interface has a channel number that is
122. igure SATA 1 as is set to IDE Selects sub menu AHCI allows advanced SATA features such as Native Command Queuing and hot plug IDE is legacy disk usage AHCI allows advanced SATA features such as Native Command Queuing and hot plug IDE is legacy disk usage While entering setup BIOS auto detects the presence of IDE devices This displays the satus of auto detection of IDE devices While entering setup BIOS auto detects the presence of IDE devices This displays the satus of auto detection of IDE devices While entering setup BIOS auto detects the presence of IDE devices This displays the satus of auto detection of IDE devices Section for AHCI Configuration 90 AT8050 www k on com Software Setup 5 1 4 3 1 Device Vendor Size Ultra DMA S M A R T Type 5 1 4 3 2 SATA Port 0 PM sub menu Display the device type Hard disk Display the vendor string ofthe disk N A Display the size of the disk N A Display the current speed of the drive N A Display the status of the Self Monitoring Analysis and Reporting Technology Auto Auto will detect the device Not installed will Not Installed not detect the device SATA Port 1 SM 2 sub menu Display only Display only Display only Display only Display only Select the type of device connected to the system Device Vendor Size Ultra DMA S M A R T Type 5 1 4 3 3 Display the
123. ilable 1 8050 tron com A 2 Kontron 1 0 Mapping 000 01F 020 03F 040 05F 060 06F 070 07F 080 09F 0 0 00 OFO OF1 OF8 OFF 1F0 1F7 3F6 170 177 376 378 37F 3F8 3FF COM1 2F8 2FF COM2 400 7FF 800 9FF A00 A1F DMA Controller 1 Interrupt Controller 1 Timer Keyboard Real time clock DMA Page Register Interrupt Controller 2 DMA Controller 2 Math Coprocessor Primary IDE Secondary IDE Parallel Port Used as PLD POD Serial Port 1 COM1 by default Serial Port 2 COM2 by default Chipset Reserved Chipset Reserved Kontron Registers on board www kontron com 2 8050 A 3 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 01 03 04 05 07 08 09 0a 10 10 11 11 14 14 14 14 16 16 16 16 16 16 16 16 1d 1d 1d PCI IDSEL and Device Numbers PEE 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 8086 3406 340 340b 340c 340e 340f 3410 3411 3425 3426 3427 3428 342e 3422 3423 3438 3430 3431 3432 3433 3429 342a 342b 342c 3a34 3a35 3a36 0 w TO FP o Intel Corporation QuickPath Architecture 1 0
124. irmware amp BootBlock 26 2 15 LEDs Description 27 www kontron com 2 Board Features 2 1 Block Diagram Figure 2 1 Block Diagram Secondary 12V SUS JEVRD11 1 T5402 Power Module Switcher i Isolated Linear 5 pos uc a M 2i 1 12V 1 8V 1 0V DDR3 64b 1067MHz DDR3 1 aheedsy Hotswap 8 MBytes g Controller Quad Core 4 y Veore 12 for AMC CPU CPU TANT on die 1 8V Onboard Connectors 3 Front Panel Connectors Clock Generator CK410B ZONE 1 Connector ZONE 2 Connectors ZONE 3 Connectors PCI Express Gen 2 L2 cache DDR3 Digital Thermal Sensors DTS PECI
125. isplay only 115200 8 n 1 NI Confi ial Baud for both serial L lal Baud 38400 8 n 1 onfigures serial port Baud ratefor both serial Select serial port Bau ports rate 19200 8 n 1 9600 8 n 1 Configures fl Lf le redirection Select fl Lf Flow Control Sortare onfigures flow control for console redirection elect flow control for for both serial ports console redirection None ae fi h L lati d h f Tett VT100 Configures the type of console emulation use Selectt e typeo for both serial ports console emulation used VTUTF8 Terminal Size 80x24 Displays terminal size N A display only 104 AT8050 www k on com Software Setup 8 1 7 2 Channel Number Channel Status IP Address MAC Address Subnet Mask Gateway Address VLAN ID VLAN Priority Active LAN Channel Number 517 3 LAN Parameter Selector Channel Number Channel Status IP Address Source Current IP Address IP Address Set LAN Configuration sub menu 01 or 02 Valid or Invalid N A N A N A N A N A N A None 01 02 Both Each interface has a channel number that is used when configuring the channel and for routing messages between channels Channels 01 and 02 on Base interface are available The channel number assignments are described in IPMI Specification 2 0 table 6 1 Display Valid if IPMC support LAN Channel Selects sub menu Selects sub menu Selects sub menu Selects sub menu Selects sub
126. itch 05h FPGA Based UART 06h RTM Virtual Device for RTM 07h AMC B1 AMC Site Number 5 85h The Carrier Point To Point Connectivity record gives the list of available point to point link paths between On Carrier Devices and AMC Sites The record s content is given by the following table Table 4 25 Record s content Record Type ID COh Record format version 02h Record Length Calculated Record Checksum Calculated Header Checksum Calculated 62 AT8050 www kontron com Manufacturer ID PICMG Record ID Record Format Version Point To Point AMC Resource Descriptor Local Resource ID Point To Point Port Count Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 Point to Point Port Descriptor Reserved Bits 23 18 Local Port Bits 13 17 Remote Port Bit 12 8 Remote Resource ID Bits 7 0 00
127. its 19 12 AMC Link Designator Bits 11 0 Coh 02h Calculated Calculated Calculated 00315Ah 19h AMC Point To Point Connectivity Record 00h 1h 471C5D14 2AE7 42B9 A9B0 0628546BA42CC OEM Module Serial Console Interconnect O6h Carrier Device 6 gt FPGA Based UART 01 FFFFEOh OFh 1Fh 1Fh 1Fh 00h FCOOOf010ah 3Fh 00h Exact match 00h Single Channel Link 00h None FOh OEM Module Serial Console Interconnect 10Ah AMC Channel 10 LaneO The AMC connectivity details for On Carrier Virtual RTM Device is embedded on the RTM itself AT8050 www kontron com 4 3 4 Clock E Keying Information The clock ekeying is used to find and activate matching clock pairs to from available clock sources and clock receivers The board has clock generator used as the PCIe FCLKA of AMC B1 Additionally clocks from to the backplane can be driven to from the AMC B1 site using an on carrier clock multiplexer The following table gives the clock resources id assignment mapping Table 4 33 Clock resources id assignment mapping OnBoard Clock Device Clock Resource Id PCIe Clock Generator 0 Clock Multiplexer 1 4 3 4 1 Clock Point To Point Connectivity Information The following table gives all the clock link paths available on the Front Board Unit as they appear in the FRU data in the Carrier Clock Point to Point Connectivity Record Table record Table 4 34 Carrier Clock Point to Point Conn
128. l issues or other problems may arise if you don t use recommended modules At the time of publication of this user guide the following memories have been qualified and approved As the memory market is volatile this list is subject to change please consult your local technical support for an up to date list 31 AT8050 www kontron com 3 3 1 Memory List and Characteristics Table 3 2 Approved Memory List VL33B5663F F8M DIMM DDR3 1066 2GB256M 72 REG ECC 0 70 VIRTIUM 6G572568FH8P6LC2 DIMM DDR3 1066 2GB256M 72 REG ECC 0 70 Smart modular VL33B5168F F8M DIMM DDR3 1066 4GB 512M 72 REG ECC 0 70 VIRTIUM VL33B5168F F8S DIMM DDR3 1066 4GB 512M 72 REG ECC 0 70 VIRTIUM VL33B5663F F8S H DIMM DDR3 1066 2GB256M 72 REG ECC 0 733 VIRTIUM VL33B5663E F8M DIMM DDR3 1066 2GB256M 72 REG ECC 0 733 VIRTIUM Memory should have the following characteristics DDR3 1066 1 5V typical Single or dual rank modules are supported x4 or x8 memory with up to 4 ranks per DIMM Registered amp ECC Only very low profiles VLP 0 72inches maximum heights 18 3mm WARNING A Because static electricity can cause damage to electronic devices take the following A precautions Keep the board in its anti static package until you are ready to install memory Wear a grounding wrist strap before removing the board from its package this will discharge any static electricity that may have built up in your body Handle the board by the faceplate or its
129. le Note Need Power Cycle with any changes Enabled Hot Plug for AMC slot available Enabled AMC slot hot plug support can be enabled Disabled Hot Plug for AMC Slot Hot Plug Support Disabled disabled AMC slot not available Note Need Power Cycle with any changes Setting this to Enabled Enabled Setting this to Enabled will force AMC in Gen1 Force Gen on AMC Disabled Mode Gen 2 will not be used MA EE Gemi The Relaxed Ordering attribute is applicable Auto and permitted to be Set with AtomicOp Enables Disables PCI Relaxed Ordering Disabled Requests where it affects the ordering of both Express Device Relaxed Enabled the Requests and their associated Ordering Completions Auto 128 Bytes This field sets maximum TLP payload size for C Pa 256 Bytes the Function As a Receiver the Function must PCI Express ch im Maximum Payload Size 512 Bytes handle TLPs as large as the set value As a p 5 allow System BIOS select 1024 Bytes Transmitter the Function must not generate thevalile 2048 Bytes TLPs exceeding the set value 4096 Bytes Auto Enables a Function to use an 8 bitTagfieldasa If ENABLED allows Extended Tag Field Disabled Requester If the bit is Clear the Function is Devoce to use 8 bit TAG Enabled restricted to a 5 bit Tag field field as a requester Auto The No Snoop attribute is applicable and No Snoo Disabled to le ce EO are ae but atomicity must be guaranteed regardless
130. led it disable this option will will be re enabled by progressive boot enable WD at 600 seconds If value is set to Reset sequence the boot jog eR A order is reset upon good start from a device RE siartfrom a device 5 Reset sequence without any WD bite g Progressive Boot Action 5 Keep booting Boot Keep booting If value is set to Keep booting the boot sequence keep the failling device and boot q all bl from the next csse booible device Never Select the value of the Always Never does Cold reset Always always do a warm reset count Warm Reset Initial count 5 warm reset after the first Cold boot The rest Always Always do a 10 ofthe option are count for warm reset warm reset Never 15 Always do a cold reset Sets the reset type issued whenever front Hard Reset panel reset button is Default Reset Type WarmiRecee pushed or IPMI Watchdog expires with reset action configured 5 1 6 2 Boot Device Priority sub menu Specifies the priority of the available boot bes Specifies the priority of 2 sources The list includes USB CD ROM USB 1st Boot Device Type Boot device SAS keni Drean DE Other Dui lable boot supported devices might be dynamically added i Specifies the boot priority of the available Wie the Nth Boot Device Type Boot device bost E The list includes Veto ROM pins Es 2 USB Hard Drive SAS Hard Drive and PXE Other supported devices might be dynamically added 1
131. m the slot 6 AT8050 www kontron com Product Description 1 6 2 Advanced Mezzanine Card The AT8050 has bay Using a mezzanine allows to add storage or I 0 not provided on board 1 6 2 1 AMC Expansion The AMC slot provides an AMC 1 type 4 AMC 2 Type E2 and 4 AMC 3 Dual Port SAS This means that the following signaling are supported PCI Express X4 on AMC ports 4 7 PCI Express clock on FCLKA Gigabit Ethernet on AMC port 0 and 1 Telco clocks on TCLKA B C D SAS AMC port 2 and 3 RS232 connection on port 15 Gigabit Ethernet on AMC port 8 9 10 and 11 7 AT8050 www kontron com Chapter 2 Board Features 2 1 BlOCK Diagram UU PRAE apod bap EE 9 2 2 Systemi Core 10 2 3 USB 2 0 Interfaces 11 2 4 USB Flash Module 12 2 5 Serial ATA Serial Attached SCSI 12 2 6 Update 13 2 7 RealTime Clock amp NVRAM 13 2 8 Redundant BIOS Flash 13 2 9 EthernetInterfaces 14 2 10 InterfaC6 u 24 2 11 AMCMez MiN E see 24 NUM m Tc 26 2 13 Telecom Clock 0ption 26 2 14 Redundant IPMC F
132. mbH 4555 Ambroise Lafortune Sudetenstrasse 7 Boisbriand Qu bec 87600 Kaufbeuren J7H 0A4 Canada Germany E 2 AT8050 www kontron com F Glossary ACPI AdvancedMC AMC 0 AMC 1 AMC 2 AMC 3 ANSI API APIC ASCII ATA ATAPI ATCA BBS BI BIOS BMC CD CDROM CD ROM CFM CLI CLK1 CLK1A CLK1B CLK2 CLK2A CLK2B CLK3 CLK3A CLK3B CMOS CPLD CP TA CPU Advanced Configuration amp Power Interface Same as AMC Advanced Mezzanine Card Same as AdvancedMC Advanced Mezzanine Card Advanced Mezzanine Card Base Specification PCI Express and Advanced Switching on AdvancedMC A subsidiary specification to the Advanced Mezzanine Card Base Specification 0 Ethernet Advanced Mezzanine Card Specification A subsidiary specification to the Advanced Mezzanine Card Base Specification 0 Advanced Mezzanine Card Specification for Storage A subsidiary specification to the Advanced Mezzanine Card Base Specification 0 American National Standards Institute Application Programming Interface Advanced Programmable Interrupt Controller American Standard Code for Information Interchange ASCII codes represent text in computers communications equipment and other devices that work with text Advanced Technology Attachment Advanced Technology Attachment Packet Interface Advanced Telecommunications Computing Architecture BIOS Boot Specification Base Interface Backplane connecti
133. mediatly the AMC Base 03h TelClock3 PLD Configuration amp Version ERN NN NN LN LN gt 03h Read PLD_CONFIG PLD_VERSION Write NA Reset NA CONFIG VERSION Circuit configuration that the PLD expect For the interface and circuit described in this document this field is away 0000 If the PLD is abscent or not programmed this field will return 0000 Code version of the PLD for the above configuration If the PLD is absent or not programmed this field will return 0000 A 8 AT8050 ron com 4 1 5 Exc ge Ted Uo TR Read Write Reset 04h Base 04h TelClock4 Backplane CLK3A B configuration optional CLK3AMC CLK3FRQ CLK3AE NU NU NU NU CLK3AMC CLK3BE CLK3AE NA NA NA NA 0 0 0 0 CLK3AMC CLK3FRQ CLK3BE CLK3AE D Reserved for selection of the AMC that provides the clock for backplane CLK3A B Applicable tot boards with two AMCs 0 use AMC B1 1 use AMC B2 Backplane CLK3A frequency 0 copy AMC TCKLB to backplane CLK3A B 1 copy AMC TCLKD to backplane CLK3A B Same as CLK3AE but to CLK3B Backplane CLK3A Enable 0 don t drive this clock 1 drive this clock Note The FPGA will automatically clear bits CLK3BE and CLK3AE when the AMC is removed since the clock source is not valid anymore www kontron com A 9 AT8050 4 1 6 d Edu II IB 05h Base
134. menu Selects sub menu Each interface has a channel number that is used when configuring the channel and for routing messages between channels The channel number assignments are described in IPMI Specification 2 0 table 6 1 IP Configuration sub menu 03 01 or 02 Valid or Invalid Static or DHCP XXX XXX XXX XXX XXX XXX XXX XXX The parameter selector assignments are described in IPMI Specification 2 0 table 23 4 Selector 03 IP Address Each interface has a channel number that is used when configuring the channel and for routing messages between channels Channels 01 and 02 on Base interface are available The channel number assignments are described in IPMI Specification 2 0 table 6 1 Display Valid if IPMC support LAN Channel Select whether IP Address is set Static or retreive using DHCP Display the current LAN configuration stored in IPMI NVRAM for IPMI LAN This allows setting an IP Address for LAN configuration when IP Address Source is set to static This option is hiden when DHCP source is selected Enter Channel Number for SET LAN Config Command Proper value 01 or 02 N A display only Enter for IP Address Configuration Enter for MAC Address Configuration Enter for Subnet Mask Configuration Enter for Gateway IP Address Configuration Enter for VLAN ID Configuration Enter for VLAN Priority Configuration Enter Active LAN Channel Number for Set LAN Conf
135. n Temp Bay Inlet Temp CPU Temp DIMM 1 Temp DIMM 2 Temp DIMM 3 Temp DIMM 4 Temp DIMM 5 Temp DIMMit6 Temp Disk Brd Input Power Threshold Threshold Threshold Threshold Threshold Threshold Threshold Threshold Threshold Threshold Threshold Threshold Threshold Threshold 1 0 Controller Hub ICH Chipset Temperature Degrees Sensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event Management Ethernet Controller Temperature Degrees Sensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event Base Interface Ethernet Controller Temperature Degrees Sensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event Fabric Interface Ethernet Controller Temperature Degrees Sensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event AMC 1 Inlet Temperature Degrees Sensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event CPU Temperature Degrees Sensor type 01h temperature Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event DIMM 1 Temperature Degrees S
136. n other publications Customers may alter this user s guide and publish it only after they remove the Kontron name cover and logo Kontron reserves the right to make changes without notice in product or component design as warranted by evolution in user needs or progress in engineering or manufacturing technology Changes that affect the operation of the unit will be documented in the next revision of this user s guide 1 AT8050 www kontron com Table of Contents Table of Contents Safety Instructions 555358555550 Before You 2 52 545 4 OR Preventing Electrostatic Discharge x Preface QM Howto Use This Guide Customer Comments KE b e d NU AR eg xii Advisory 5 xii Unpacking se sz xiii Powering Up the 5 xiii Adapter Cables 4 5 sodes seri e ente koninin E VES ses UAR xiii Storing Boards usss I eise io a esc saa occa eee we ses xiii Regulatory Compliance 54
137. n KEST on Management LAN 04 00 8086 10c9 1 Intel Corporation 82576 Gigabit Network Connection Management LAN 06 00 0 RTM Of 00 0 AMC 18 00 0 Update Channel 4 8050 on com Telco Clock Clock Circuit Overview A 4 E o 2 5 c o zs lt lt A 4 1 A 4 1 1 00h Register Description Base 00h TelClock0 Backplane Clock Status PLL Reference amp Interface Selection 80 Read IFSEL SEL REFA BP REF CLK2B CLK2A CLK1B CLK1A Write IFSEL MAN SEL REFM BP REF NU NU NU NU Reset 0 0 0 0 NA NA NA NA IFSEL MAN SEL REFA SEL REFM BP REF CLK1A B CLK2A B Interface selection This bit is always writable from the IPMC side but on the LPC side the CPU can only read it 1 IPMC has write control of the interface 0 Main CPU LPC has write control of the interface 0 The PLD chooses automatically the reference used by the DPLL CLKA or B 1 Selection of the DPLL reference is manual Write the selection in bit SEL REF On a read return the reference automatically selected by the CPLD 0 REFO is the reference used by the PLL i e CLKA 1 REF1 is the reference used by the PLL i e CLKB When bit MAN 1 the application software can select the reference by writing the desired value in this bit This bitis not writtable when MAN 0 Note that on a read this bit returns the automatic selection event if MAN 1 Backpla
138. n the AT8050 is unpowered for too long only the time and date will be Lost 2 8 Redundant BIOS Flash Two BIOS SPI flash are present on the AT8050 If for some reason a BIOS update corrupts a flash and it prevents the CPU from completing the boot sequence the IPMC will swap the active SPI flash and force reboot Note Since the CMOS setup is saved in flash this will also restore the previous BIOS setup in BIOS Settings 1 Management gt System Information gt BIOS In Use Exit gt Exit and Execute BIOS Swap 13 AT8050 www kontron com 2 9 X Ethernet Interfaces 2 9 1 Fabric Interface The fabric interface can be either 10GbE or 1GbE An E Keying configuration is required to properly route the desired connection speed The AT8050 has boot from LAN capability PXE or iSCSI support on these ports Enable the option from the BIOS Setup Program Please refer to Section 5 1 AMI BIOS Set up Program 2 9 1 1 10GbE 182599 connectivity AT8050 has one dual port 10GbE controller 182599 connected to the Fabric Interface This controller can also be used as a dual 1Gb 2 9 1 2 1GbE 182576EB connectivity While normally connected to the front panel the 182576 1GbE controller can be connected to the Fabric interface instead of the i82599EB 10GbE 10GbE connectivity will no longer be available 2 9 1 3 182599EB Fabric Interface Features high performance with TCP IP and UDP IP checksum
139. n voided in the event of any claim he may return the product at the earliest possible convenience to the original place of purchase together with a copy of the original document of purchase a full description of the application the product is used on and a description of the defect Pack the product in such a way as to ensure safe transportation see our safety instructions Kontron provides for repair or replacement of any part assembly or sub assembly at their own discretion or to refund the original cost of purchase if appropriate In the event of repair refunding or replacement of any part the ownership of the removed or replaced parts reverts to Kontron and the remaining part of the original guarantee or any new guarantee to cover the repaired or replaced items will be transferred to cover the new or repaired items Any extensions to the original guarantee are considered gestures of goodwill and will be defined in the Repair Report issued by Kontron with the repaired or replaced item Kontron will not accept liability for any further claims resulting directly or indirectly from any warranty claim other than the above specified repair replacement or refunding In particular all claims for damage to any system or process in which the product was employed or any loss incurred as a result of the product not functioning at any given time are excluded The extent of Kontron liability to the customer shall not exceed the original purchase
140. n1 NO SSC 02h AMC 1 PCI Express The following table gives AMC connectivity details for Intel IOH PCI Express Root Complex Port 8 On Carrier Device 1 67 AT8050 tron com Table 4 27 AMC connectivity details for Intel IOH PCI Express Root Complex Port 8 Record Type ID Record format version Record Length Record Checksum Header Checksum Manufacturer ID PICMG Record ID Record Format Version OEM GUID Count Record Type Connected device ID AMC Channel Descriptor Count AMC Channel Descriptor Reserved Bits 23 20 Lane 3 Port Number Bits 19 15 Lane 2 Port Number Bits 14 10 Lane 1 Port Number Bits 9 5 Lane 0 Port Number Bits 4 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 AMC Link Descriptor Reserved Bits 39 34 Coh 02h Calculated Calculated Calculated 00315Ah 19h AMC Point To Point Connectivity Record 0
141. ne selection of clock to connect to the PLL 0 Use backplane CLK1A and CLK1B 8kHz 1 Use backplane CLK2A and CLK2B 19 44MHz Coarse monitoring status A1 indicate that the corresponding backplane clock is present AO that it is absent Those statuses are valid only if CLK1A B is 8kHz and CLK2A B is 19 44MHz If other frequencies are used those bits should be ignored www k n com A 6 AT8050 4 1 2 Exc Eee due ed s s Read Write Reset 01 Base 018 TelClock1 PLL Control 8 Status LOCK FAIL1 FAILO TIE CLR amp MODE RESET OOR NU NU NU NU TIE_CLR MODE RESET OOR NA NA NA NA 1 1 0 0 LOCK FAIL1 FAILO TIE_CLR MODE RESET OOR PLL lock status 1 PLL locked 0 PLL not locked PLL in holdover or free running CLK1B or CLK2B according to REF failed with current OOR setting Same as FAILO but for REF1 REFO CLK1A or CLK2A according to BP REF failed with current OOR setting 1 failed clock 0 passed clock Timing Interval Error adjustement 1 normal mode 0 adjust phase to match reference PLL operating mode 1 freerun mode may be used for tests 0 normal mode Hardware reset of the PLL This bit is forced to 1 when the payload power i e PLL power is turned off 1 reset 0 normal operation OUT OF Range selection Determine what is considered a precision fault by the PLL 1 64 83ppm 0 40 52ppm Note This register needs
142. nk Type Bits 19 12 Link Designator Bits 11 0 Link Descriptor Link Grouping ID Bits 31 24 Link Type Extension Bits 23 20 Link Type Bits 19 12 Link Designator Bits 11 0 Link Descriptor Link Grouping ID Bits 31 24 Link Type Extension Bits 23 20 Link Type Bits 19 12 Link Designator Bits 11 0 Link Descriptor Link Grouping ID Bits 31 24 Link Type Extension Bits 23 20 Coh 02h Calculated Calculated Calculated 02h 00315Ah PICMG Record ID 14h Board Point To Point Connectivity Record 00h 01h OEM PCIe x4 CLK Update Channel 00001101h Oh Single Channel link Oh None 01h PICMG 3 0 Base Interface 10 100 1000 BASE T 101h Base Interface Channel 1 Port 0 00001102h Oh Single Channel link Oh None 01h PICMG 3 0 Base Interface 10 100 1000 BASE T 102h Base Interface Channel 2 Port O 00102F41h Oh Single Channel link 1h Fixed 10GBASE BX4 XAUI 02h PICMG 3 1 Ethernet Fabric Interface F41h Fabric Interface Channel 1 Port 0 1 2 3 00002341h Oh Single Channel link Oh Fixed 1000Base BX 02h PICMG 3 1 Ethernet Fabric Interface 3411 Fabric Interface Channel 1 Port 0 1 00002141h Oh Single Channel link Oh Fixed 1000Base BX 02h PICMG 3 1 Ethernet Fabric Interface 141h Fabric Interface Channel 1 Port 0 00102F42h Oh Single Channel link 1h Fixed 10GBASE BX4 XAUI 60 AT8050 tron com Link Type Bits 19 12 Link
143. nt 39 Vcc Vcore Threshold 51 AT8050 tron com Voltage board 1 1V payload power supply Volts Sensor type 02h voltage Event Reading type code 01h threshold based see IPMIv1 5 section 29 13 3 for threshold based event Voltage on board 1 2V payload power supply Volts Sensor type 02h voltage Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event 40 Vcc 1 1V Threshold 41 Vcc 1 2V Threshold Voltage on board 1 5V payload power supply Volts Sensor type 02h voltage Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event Voltage on board 1 8V payload power supply Volts Sensor type 02h voltage Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event 42 Vcc 1 5V Threshold 43 Vcc 1 8V Threshold Voltage on board 3 3V payload power supply Volts Sensor type 02h voltage Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event Voltage on board 5V payload power supply Volts Sensor type 02h voltage Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event 44 Vcc 3 3V Threshold 45 Vcc 5V Threshold Voltage on board 2 5V reference power supply Volts Sensor type 02h voltage Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3
144. offloading for IPv4 and IPv6 packet filtering and jumbo frame up to 15 5K See http www intel com for additional details the 182599EB 2 9 1 4 182576EB Base Interface and Management Interface Features high performance with TCP IP and UDP IP checksum offloading for IPv4 and IPv6 packet filtering and jumbo frame up to 16K See http www intel com for additional details on the 182576EB Signal Path The two ports are available on the Fabric Interface wits BIOS Settings 000 201 Advanced Expansion ROM Configuration 101 BIOS Settings 000 101 System Management gt E keying configuration gt Management LAN Setting 14 AT8050 www kontron com 2 9 2 Base Interface An 182576EB dual port 1Gb Ethernet controller is features on the Base Interface Boot from LAN capability PXE or iSCSI is supported on these ports Enable the option from the BIOS Setup Program Please refer to Section 5 1 AMI BIOS Set up Program Signal Path The two ports are available on the Base Interface 101 BIOS Settings 10 Advanced gt Expansion ROM Configuration 2 9 3 Management Interface The management interface is featured by the second 182576EB dual port 1Gb Ethernet controller By means of cross point switch it can achieve the following connectivity front panel with two 10 100 1000Base T RJ45 interfaces AMC port 0 1 RIM The Fabric Interface disables 10GbE connectivity
145. om Product Description 1 Product Description 1 1 Product Overview The Kontron AT8050 AdvancedTCA processor board redefines the design possibilities with a new Intel microarchitecture processor which offers greater efficiency and performance The AT8050 is a single socket design with two featurerich processor options an Intel Xeon Quad Core L5518 45nm processor or an Intel Xeon Six Core L5638 32nm processor BIOS 3 00 and highier Both feature an Integrated Memory Controller Turbo Boost Technology Intel QuickPath interconnect and Intel Hyper Threading Technology SMT The Intel L5638 offers new hardware security features including the Intel amp Advanced Encryption Standard New Instructions Intel amp AES NT which enables fast and secure data encryption and decryption in AES based communications cryptographic workloads and offers a significant increase in performance compared to the current pure software implementations The overall performance of the Kontron AT8050 will handle even the most demanding storage medical imaging security and communications infrastructure applications With the available AdvancedMC bay wireless telecom equipment manufacturers can add multiple functionality with an assortment of Kontron AMC modules such the Kontron AM42xx series of Intelligent packet processor AMC modules designed with the OCTEON Plus 5650 Network Service MIPS Processor from Cavium Networks 1 2 What s Included
146. om Software Setup 5 17 30 System Information sub menu Board Product Name AT8050 Displays the CPU blade product name N A display only Board Vendor Kontron Displays CPU blade vendor N A display only Board Serial Number Varies Displays the CPU blade serial number N A display only Board Part Number Varies Displays the CPU blade part number N A display only 3 Displays the current chassis slot number for Chassis Slot 1 16 the CPU blade N A display only 5 The current BIOS device BIOS In Use Primary Displays the current BIOS device in use in use primary or Secondary primary or secondary secondary IPMI Device and FW Info N A Selects sub menu N A display only 109 AT8050 www kontron com Software Setup 5 1 7 04 Version IPMI Device ID IPMI Device Revision IPMI Firmware Version SDR Revision Maintenance Revision Aux Revision Info byte 0 Aux Revision Info byte 1 Aux Revision Info byte 2 Aux Revision Info byte 3 IPMI Device and FW AP sub menu Varies Varies Varies Varies Varies Varies Varies Varies Varies Displays IPMI Specification version Displays IPMI device ID OEM defined IPMI Device ID has been assigned like this Renesas H8S2148 1 Kontron PMM 2 Renesas H8S2145 3 Renesas 852166 4 Renesas H8S2138 5 Renesas 852168 6 Renesas H8S2472 7 Displays IPMI device revision OEM defined specify the version of the IPMI
147. ower amp IPMB B 2 Post Codes J2 Sorat VCC3 POST DATA POST CLOCK GND BR W HR Bel AT8050 www kontron com B 3 1 25 LN 1 GND GND B86 GND B43 B129 TxD15 B2 12V B44 RxD4 B87 TxD8 B130 TxD15 B3 PS1 B45 RxD4 B88 TxD8 B131 GND B4 MP_3V3 B46 GND B89 GND B132 RxD15 B5 GAO B47 TxD4 B90 RxD8 B133 RxD15 B6 RSV B48 TxD4 B91 RxD8 B134 GND B7 GND B49 GND B92 GND B135 TxD16 B8 RSV B50 RxD5 B93 TxD9 B136 TxD16 9 12V B51 RxD5 B94 TxD9 B137 GND B10 GND B52 GND B95 GND B138 RxD16 B11 RxDO B53 TxD5 B96 RxD9 B139 RxD16 B12 RxDO B54 TxD5 B97 RxD9 140 GND B13 GND B55 GND B98 GND B141 TxD17 B14 TxD0 B56 IPMB L SCL B99 TxD10 B142 TxD17 B15 00 57 12V B100 TxD10 B143 GND B16 GND B58 GND B101 GND B144 RxD17 B17 GA1 B59 RxD6 B102 RxD10 B145 RxD17 B18 12V B60 RxD6 B103 RxD10 B146 GND B19 GND B61 GND 104 GND B147 TxD18 B20 RxD1 B62 TxD6 B105 TxD11 B148 TxD18 B21 RxD1 B63 TxD6 B106 TxD11 B149 GND B22 GND B64 GND B107 GND B150 RxD18 B23 TxD1 B65 RxD7 B108 RxD11 B151 RxD18 B24 TxD1 B66 RxD7 B109 RxD11 B152 GND B25 GND B67 GND B110 GND B153 TxD19 B26 GA2 B68 TxD7 B111 TxD12 B154 TxD19 B27 12V B69 TxD7 B112 TxD12 B155 GND B28 GND B70 GND B113 GND B156 RxD19 B29 RxD2 B71 IPMB L_SDA B114 RxD12 B157 RxD19 B30 RxD2 B72 12V B115 RxD12 B158 GND B31 GND B73 GND B116 GND B159 TxD20 B32 TxD2 B74 CLK1 B117 TxD13 160
148. pdated using the HPM 1 Hardware Platform Management IPM Controller Firmware Upgrade Specification revision 1 0 Kontron s IPMC firmware already complies to PICMG HPM 1 R1 0 HPM commands are available from any of the MC messaging interfaces The images of the different components can be packaged in the same HPM image They can also be separated Packaging the images together allows to upgrade all the components using only one upgrade instruction Moreover it ensure all components upgraded are compatible The following table gives the HPM component IDs implemented on the AT8050 Table 4 37 HPM component IDs 0 MC Bootblock 1 IPMC Firmware 2 FPGA 3 BIOS Furthermore non HPM components can also be updated via the MC Table 4 38 non HPM components Non HPM Component Description CMOS CMOS information programmed through Master Write Read API FRU Data The FRU inventory information is updated via Write FRU Data commands ME Management Engine updated through Intel s OEM update commands 82 AT8050 www kontron com Chapter 5 Software Setup 5 1 AMIBIOS Setup Program 84 5 2 BOOT WEES Ku NR UI ennenen 113 5 3 Console Redirection VT100 Mode 114 83 AT8050 www kontron com Software Setup 5 Software Setup 5 1 AMI BIOS Setup Program All relevant information for operating the board and connected peripherals is stored in the CMOS memory backed up
149. pecifica condition 89 AT8050 www k Software Setup 5 142 ACPI Configuration sub menu V3 0 Support for 64 bit addressing for ACPI System ACPI Version Features V2 0 Description Tables in ACPI 3 0 Only 32 bit for V1 0 others description tables Enabled Support for ACPI APIC table pointer to Root ACPI APIC Support Disabled System Description Table RSDT pointer list can Ss be enabled disabled Enabled Headless operation mode through ACPI can be Disabled enabled disabled 5 1 4 3 Drive Configuration sub menu Enable RSDP pointers to 64 bit Fixed System Description Tables Different ACPI version has some addition Enabled ACPI APIC table support Disabled ACPI APIC table not supported Enabled Headless operation mode through ACPI supported Disabled Headless operation mode through ACPI not supported Disabled SATA 1 Configuration Compatible Enhanced AHCI Configure SATA 1 as IDE SATA Port 0 PM N A SATA Port 1 SM N A SATA Port 2 PS N A AHCI Configuration N A Select whether the controller is using only legacy resources i e IRQ 14 15 compatible or with memory resources only Enhanced Only shows when SATA 1 is configure in IDE mode Advanced Host Controller Interface AHCT is an Selects sub menu Only shows if Configure SATA 1 as is set to IDE Selects sub menu Only shows if Configure SATA 1 as is set to IDE Selects sub menu Only shows if Conf
150. pported Commands for IPMC 42 Table 4 6 PEF and Alerting Supported Commands 43 Table 4 7 Sensor Device Supported Commands for 43 Table 4 8 FRU Device Supported Commands 44 Table 4 9 SDR Device Supported Commands for 44 Table 4 10 SEL Device Supported Commands for IPMC 44 Table 4 11 LAN Device Supported Commands 45 Table 4 12 Serial Modem Device Supported Commands forIPMC 45 Tabla 4 13 SOLCOMMANGS ione vo hk Rh Er IRI HERRERA a Ihr ic 46 Table 4 14 PICMG 3 0 Commands for IPMC 46 Table 4 15 0 Carrier Commands 1 47 Table4 16 PM COMMANGS ERA 48 Tabl 4 17 PMC SensOl sons ka ceo ute s 49 Table 4 18 Health Indicator Sensor Aggregation Table 56 Table 4 19 Board Information 58 Table 4 20 Product Information
151. price of the item for which the claim exists Kontron issues no warranty or representation either explicit or implicit with respect to its products reliability fitness quality marketability or ability to fulfil any particular application or purpose As a result the products are sold as 15 and the responsibility to ensure their suitability for any given task remains that of the purchaser In no event will Kontron be liable for direct indirect or consequential damages resulting from the use of our hardware or software products or documentation even if Kontron were advised of the possibility of such claims prior to the purchase of the product or during any period since the date of its purchase Please remember that no Kontron employee dealer or agent is authorized to make any modification or addition to the above specified terms either verbally or in any other form written or electronically transmitted without the company s consent 8050 www kontron com Chapter 1 Product Description 1 1 Product Overview 2 1 2 What s Included 2 1 3 Board Specifications 3 1 4 U 5 1 5 Hot Plug Capability 5 1 6 Interfacing with the Environment 5 1 8050 www kontron c
152. provides The primary purpose of Sensor Data Records is to describe the sensor configuration of the hardware management subsystem to system software The IPMC are required to maintain Device Sensor Data Records for the sensors and objects they manage Access methods for the Device SDR entries are described in the IPMI 2 0 specification Section 35 Sensor Device Commands After a FRU is inserted the System Manager using the Shelf Manager may gather the various SDRs from the FRU s IPM Controller to learn the various objects and how to use them The System Manager uses the Sensor Device Commands to gather this information Thus commands such as Get Device SDR Info and Get Device SDR which are optional in the IPMI specification are mandatory in AdvancedTCA systems Most of the current Shelf Manager implementation gathers the individual Device Sensor Data Records of each FRU into a centralized SDR Repository This SDR Repository may exist in either the Shelf Manager or System Manager If the Shelf Manager implements the SDR Repository on board it shall also respond to SDR Repository commands This duplication of SDR repository commands creates sometime some confusion among AdvancedTCA users This is mandatory for IPMC to support the Sensor Device Commands for IPMC built in SDR as described in the IPMI 2 0 specification Section 35 Sensor Device Commands Forthe ShMC the same set of commands for the centralized SDR Repository must
153. ptor Local Clock Id 0x02 On Carrier Clock Id 2 Remote Clock Id 0x04 CLK2A 7 6 10b Backplane clock Remote Clock Resource Id 0x80 5 4 Oh reserved 3 0 Point to Point Clock Connection descriptor Local Clock Id 0x03 On Carrier Clock Id 3 Remote Clock Id 0x05 CLK2B 7 6 10b Backplane clock Remote Clock Resource Id 0x80 5 4 Oh reserved 3 0 Oh Point to Point Clock Connection descriptor Local Clock Id 0x04 On Carrier Clock Id 4 Remote Clock Id 0x07 CLK3A 7 6 10b Backplane clock Remote Clock Resource Id 0x80 5 4 Oh reserved 3 0 Point to Point Clock Connection descriptor Local Clock Id 0x05 On Carrier Clock Id 5 Remote Clock Id 0x08 CLK3B 7 6 10b Backplane clock Remote Clock Resource Id 0x80 5 4 Oh reserved 3 0 Point to Point Clock Connection descriptor Local Clock Id 0x06 On Carrier Clock Id 6 Remote Clock Id 0x01 TCLKA 7 6 01b AMC Remote Clock Resource Id 0x45 5 4 Oh reserved 3 0 AMC Site Number 5 AMC B1 Point to Point Clock Connection descriptor 76 AT8050 tron com Local Clock Id 0x07 On Carrier Clock Id 7 Remote Clock Id 0x03 TCLKC 7 6 01b AMC Remote Clock Resource Id 0x45 5 4 Oh reserved 3 0 AMC Site Number 5 AMC B1 Point to Point Clock Connection descriptor Local Clock Id 0x08 On Carrier Clock Id 8 Remote Clock Id 0x04 TCLKB 7 6 01b AMC Remote Clock Resource Id 0x45 5 4 Oh reserved 3 0 AMC Site Number 5 AMC B1 Point to Point Clock Connection des
154. r The ICH10R SATA host controller supports independent DMA operation and supports data transfer rates of up to 3 0 Gb s 300 MB s The SATA controller contains two modes of operation a legacy mode using I 0 space and an AHCI mode using memory space When configured in legacy mode the SATA controller doesn t provide AHCI capabilities The ICH10R supports the Serial ATA Specification Revision 1 0a The ICH10 also supports several optional sections of the Serial ATA II Extensions to Serial ATA 1 0 Specification Revision 1 0 AHCI support is required for some elements 2 6 Update Channel The AT8050 update channel can be used to interface with an AMC carrier blade such as the AT8402 Kontron AMC carrier via x4 PCI Express link This feature offer additional application possibilities to the AT8050 Consult the AMC carrier blade s technical reference manual for more information about these possibilities or contact your local technical support team for further details about the update channel 2 7 RealTime Clock 8 The AT8050 is a battery less board The real time clock and non volatile RAM integrated in the ICH are powered by the suspend power when available A SuperCap provides sufficient power to retain the real time clock for a typical duration of 2hrs The real time clock precision is 100ppm or better Although itis possible to save the CMOS setup in NVRAM or CMOS RAM the default configuration saves the setup in flash So whe
155. r R Board revision Z config 00000 No DDR3 00001 12GB DDR3 Product Version type Calculated length Product Version R R revision Product Serial Number x type length Calculated Product Serial Number XXXXXXXXX Product Part Number type length Calculated Asset Tag type length OxCF Asset Tag 5 FRU File ID type length Calculated FRU5007 XX XX template version No more fields OxC1 Padding None Board Area Checksum Calculated Variable X may change on revisions 4 3 3 1 Board E Keying Information The board e keying information contains PICMG 3 0 R3 0 defined channel and link descriptors required for matchmaking computation by the ShMC The following table gives the E Keying capabilities of the board as they appear in the FRU data 59 AT8050 www kontron com Table 4 21 E Keying capabilities of the board Record Type ID Record Format Version Record Length Record Checksum Header Checksum Record Type ID Record format version Manufacturer ID PICMG Record ID Record Format Version OEM GUID Count OEM GUID F0 Link Descriptor Link Grouping ID Bits 31 24 Link Type Extension Bits 23 20 Link Type Bits 19 12 Link Designator Bits 11 0 Link Descriptor Link Grouping ID Bits 31 24 Link Type Extension Bits 23 20 Link Type Bits 19 12 Link Designator Bits 11 0 Link Descriptor Link Grouping ID Bits 31 24 Link Type Extension Bits 23 20 Li
156. r Checking and Correction EMI ElectroMagnetic Interference ETH Same as Ethernet FC Fibre Channel FCC Federal Communications Commission FI Fabric Interface Backplane connectivity defined by the ATCA FIFO First In First Out FPGA Field Programmable Gate Array FRU Field Replaceable Unit Any entity that can be replaced by a user in the field Not all FRUs are hot swappable FWH FirmWare Hub Boot flash connected to the LPC bus containing BIOS FW Gb Gigabit GB Same as GByte GigaByte GByte Same as GB GigaByte GbE Gigabit Ethernet GHz GigaHertz GND GrouND HDD Hard Disc Drive HPM PICMG Hardware Platform Management specification family HPM 1 Hardware Platform Management IPM Controller Firmware Upgrade Specification HW HardWare 12 Inter Integrated Circuit bus ICH 1 0 Controller Hub ICT In Circuit Test ID IDentification IEEE Institute of Electrical and Electronics Engineers Intel Mobile Voltage Positioning The Intel Mobile Voltage Positioning specification for the Intel IMVP 6 Core Duo Processor It is a DC DC converter module that supplies the required voltage and current to a single processor 10 Same as 1 0 Input Output IOH 1 0 Hub IOL IPMI Over LAN IP Internet Protocol F 2 AT8050 ron com Intelligent Platform Management IPMB Intelligent Platform Management Bus 0 Intelligent Platform Management Bus Channel 0 the logical aggregation of IPMB A and IPMB B IPMB A Intelligent Platform Management Bu
157. rect Clock Descriptors Count n Indirect clock Descriptor Features Dependent ClockId Features Dependent ClockId Direct clock Descriptor Clock Id Clock Control Indirect Clock Descriptors Count m Direct Clock Descriptors Count n Indirect clock Descriptor Features Dependent ClockId Features Dependent ClockId Direct clock Descriptor Clock Id Clock Control Indirect Clock Descriptors Count m 6 0x02 7 0x02 0x01 0x02 0x00 0x02 0x02 0x03 0x01 0x02 0x00 0x02 0x04 0x01 0x02 0x00 0x01 0x01 0x05 0x01 0x02 7 2 Oh reserved 1 1b Connected through PLL 0 06 Clock Receiver none Receiver input from CLK2A 7 1 Oh reserved 0 1b Activated by Application 7 2 Oh reserved 1 1b Connected through PLL 0 Ob Clock Receiver 7 2 Oh reserved 1 1b Connected through PLL 0 Ob Clock Receiver none Receiver input from CLK2B 7 10h reserved 0 1b Activated by Application 7 2 Oh reserved 1 1b Connected through PLL 0 Ob Clock Receiver 7 2 Oh reserved 1 1b Connected through PLL 0 Ob Clock Receiver none Source output to CLK3A 7 10h reserved 0 1b Activated by Application 7 2 Oh reserved 1 Ob Not Connected through PLL 0 1b Clock Source 7 2 Oh reserved 1 Ob Not Connected through PLL 0 1b Clock Source none Source output to CLK3B 7 10h reserved 0 1b Activated by Application 79 AT8050 tron
158. ric Interface FI allow AMC 2 module connection to FI When this option is enabled the 182599 cannot be used on the FI Warning Re insertthe blade after changing settings N A Select which Serial Port is routed to the RTM Serial Port connecter An e keying match is required between the AMC and the RTM for the serial link to work Warning Re insert the blade after chaning settings 111 AT8050 ron com Software Setup M2 RTM Serial Port State chee Display actual RTM Serial Port Routing N A AMC P15 Select AMC to connect a SATA disk in the AMC to the ICH controller Disabled Select Disabled to route ICH SATA PO Setting AMC Route ICH SATA PO to AMC or disable AMC to the RTM SAS controller Warning Re insert the blade after changing settings Disabled A ICH SATA PO State AMC Display actual ICH SATA PO Routing N A Disabled Disable AMC PCI Express Disabled Auto Enable AMC PCI AMC PCI Express Setting ate Route AMC PCIe based e keying or disabled Express based on e keying Warning Re insertthe blade after changing settings Disabled PCI Express State Aris Display actual AMC PCI Express N A 5 1 7 13 Managed FRU Deactivation Policies sub menu Deactivation Deactivate FRUO AMC Deactivation Policy Deactivate AMC only ae dim FRU1 Deactivate FRU1 or Gracefull Shutdown Front Board AMC On RTM Deactivation Deactivate FRUO RTM Deactivation Policy D
159. rocessor Event Reading type code 6Fh Sensor Specific offset 0 1 5 are used see IPMI v1 5 table 36 3 Sensor type code 07h for sensor definition BIOS Flash 0 Status Sensor type 1Eh Boot Error Event Reading type code 6Fh Sensor specific only offset 3 is used see IPMI v1 5 table 36 3 Sensor type code 1Eh Boot Error for sensor definition BIOS Flash 1 Status Sensor type 1Eh Boot Error Event Reading type code 6Fh Sensor specific only offset 3 is used see IPMIv1 5 table 36 3 Sensor type code 1Eh Boot Error for sensor definition Advance Configuration and Power Interface State Sensor type 22h System ACPI Power State Event Reading type code 6Fh Sensor specific offset 0 4 5 10 11 12 14 are used see IPMI v1 5 table 36 3 Sensor type code 22h ACPI Power State for sensor definition IPMI Watchdog payload watchdog Sensor type 23h Watchdog 2 Event Reading type code 6Fh Sensor specific offset 0 1 2 3 8 are used see IPMI v1 5 table 36 3 Sensor type code 23h Watchdog 2 for sensor definition Clock Resource Sensor Sensor type DOh Kontron Clock Resource Control Sensor Event Reading type code 6Fh Sensor specific offset 0 1 2 3 8 are used see table Sensor type code Kontron OEM Clock Resource Control Sensor for sensor definition Firmware Change Detection Sensor type 2Bh Version Change Event Reading type code 6Fh Sensor specific see IPMI v1 5 table 36 3 Sensor type code 2Bh Version C
160. rosoft IRQ Routing Table Prepares the runtime language module Disables the system configuration display if needed A4 Initialize runtime language module Displays the system configuration screen if enabled Initialize the CPU s before boot which ey includes the programming of the MTRR s A8 Prepare CPU for OS boot including final MTRR values A9 Wait for user input at config display if needed AA Uninstall POST INT1Ch vector and INTO9h vector Deinitializes the ADM module AB Prepare BBS for Int 19 boot AC End of POST initialization of chipset registers B1 Save system context for ACPI 00 Passes control to OS Loader typically INT19h 61 70 OEM POST Error This range is reserved for chipset vendors amp system manufacturers The error associated with this value may be different from one platform to the next DD DE OEM PCI init debug POST code during DIMM init See DIM Code Checkpoints section of document for more information C 3 AT8050 ron com C 3 DIM Code Checkpoints The Device Initialization Manager DIM gets control at various times during BIOS POST to initialize different system busses The following table describes the main checkpoints where the DIM module is accessed Checkpoint Description Initialize different buses and perform the following functions Reset Detect and Disable function 0 Static Device Initialization function 1 Boot Output Device Initialization function 2 Function 0 dis
161. rts Full Hot Swap capability as per PICMG3 0R3 0 for the board itself and AMC bay It can be removed from or installed in the system while it is on without powering down the system Please refer to the PICMG3 0R3 0 specification for additional details about Hot Swap The AT8050 supports PCI Express Hotplug on AMC B1 The IPMC uses the standard PCI Express Hotplug Controller on the CPU board allowing hot insertion and removal of an AMC 1 module within the OS The AT8050 supports also the RTM Hotplug and the RTMDISK Hotplug 1 6 Interfacing with the Environment 1 6 1 RTM rear transition module The RTM8050 is a single slot 6HP AdvancedTCA Rear Transition Module This module provides additional connectivity for AT8050 CPU front blade 1 6 1 1 Standard Compliance e PICMG3 0 R3 0 Advanced Telecommunication Computing Architecture SFF 8470 T10 Technical Committee and SCSI Trade Association 5 AT8050 www kontron com Product Description 1 6 1 2 Serial Port Feature Oneserial ports available on the RTM face plate through a RJ 45 connector e RS 232 signal levels at RTM face plate connector Serial port speed capability is 9 6kbits s to 115 2kbits s 1 6 1 3 Hot Swap The RTM8050 supports hot swapping by using the switch connected to the face plate lower ejector This switch indicates the coming hot swap action The insertion of the RTM to a slot is always done over a non powered connector During the extraction proc
162. s 4 2 Hardware Management Functionality The Front Blade Unit supports an intelligent hardware management system based on the Intelligent Platform Management Interface Specification The hardware management system of the Front Blade Unit provides the ability to manage the power and interconnect needs of intelligent devices to monitor events and to log events to a central repository 4 2 1 specific features 42 14 IPMC ShMC interface The principal management oriented link within a Shelf is a two way redundant implementation of the Intelligent Platform Management Bus IPMB IPMB is based on the inter integrated circuit I2C bus and is part of the IPMIarchitecture In AdvancedTCA Shelves the main IPMB is called 0 Each entity attached to IPMB 0 does so through an IPM Controller the distributed management controller of the IPMI architecture Shelf Managers attach to IPMB 0 through a variant IPM Controller called the Shelf Management Controller ShMC AdvancedTCA IPM Controllers besides supporting dual redundant IPMBs also have responsibility for detecting and recovering from IPMB faults The reliability of the AdvancedTCA 0 is increased by using two IPMBs with the two IPMBs referenced as IPMB A and The aggregation of the two IPMBs is IPMB 0 The IPM Controllers aggregate the information received on both IPMBs An IPM Controller that has a message ready for transmit uses the IPMBs in a round ro
163. s A IPMB B Intelligent Platform Management Bus B IPMB L Intelligent Platform Management Bus Local IPMC Intelligent Platform Management Controller IPMI Intelligent Platform Management Interface IPMIFWU Intelligent Platform Management Interface FirmWare Update IPv6 Internet Protocol version 6 IRQ Interrupt ReQuest JTAG Joint Test Action Group KHz KiloHertz LAN Local Area Network LED Light Emitting Diode LFM Low Frequency Mode The lowest operating speed for the processor LPC Low Pin Count port MAC Media Access Controller address of a computer networking device MB MegaByte MCH Memory Controller Hub MHz MegaHertz MMC Module Management Controller MMCs are linked to the IPMC NC Not Connected 00S Out Of Service 0S Operating System PHYsical layer Generic electronics term referring to a special electronic integrated circuit or PHY functional block of a circuit that takes care of encoding and decoding between a pure digital domain on off and a modulation in the analog domain PICMG PCI Industrial Computer Manufacturers Group PICMG PCI Industrial Computer Manufacturers Group POST Power On Self Test prAMC Processor AMC RAID Redundant Array of Independent Disks Redundant Array of Inexpensive Disks RAM Random Access Memory RHEL Red Hat Enterprise Linux RoHS Restriction of the Use of Certain Hazardous Substances RS 232 Same as RS232 Recommended Standard 232 RS232 Same as RS 232 Recommended Standard 232 RTC Real Time Clock RTM Rear Tran
164. s No No Yes ECC ECC Checking ECC enables DRAM Data I ity M Non ECC Use only for testing purposes Correctable ECC for testing purposes Disabled Uncorrestable ECC 4 Correctable errors reported Uncorrectable Both ECC errors for both testing purposes Disabled ECC errors not reported 93 AT8050 www k n com Software Setup 5 1 4 5 Ethernet BI Expansion ROM Ethernet FI Expansion ROM Management Ports Expansion ROM RTM Expansion ROM AMC Slot Expansion ROM Update Channel Expansion ROM Disabled iSCSI PXE Disabled iSCSI PXE Disabled PXE Enabled Disabled Enabled Disabled Enabled Disabled Expansion ROM Configuration sub menu The base interface PXE Expansion ROM can be enabled disabled If disabled remote LAN boot via base interface is not available to boot the system The fabric interface PXE Expansion ROM can be enabled disabled If disabled remote LAN boot via fabric interface is not available to boot the system The Management Ports PXE Expansion ROM on the face plate can be enabled disabled If disabled remote LAN boot via the management ports on the face plate is not available to boot the system The RTM Expansion ROM can be enabled disabled If disabled any SAS devices attached to the RTM are not available to boot the system Enables or disables AMC Slot Expansion ROM s if any detected If disabled AMC Expansion ROM s
165. s are installed with proper shielding to maintain CE compliance Kontron does not offer engineering services for designing cabling systems In addition Kontron will not retest or recertify systems or components that have been reconfigured by customers xiv AT8050 www kontron com Preface Limited Warranty Kontron grants the original purchaser of Kontron s products a TWO YEAR LIMITED HARDWARE WARRANTY as described in the following However no other warranties that may be granted orimplied by anyone on behalf of Kontron are valid unless the consumer has the express written consent of Kontron Kontron warrants their own products excluding software to be free from manufacturing and material defects for a period of 24 consecutive months from the date of purchase This warranty is not transferable nor extendible to cover any other users or long term storage of the product It does not cover products which have been modified altered or repaired by any other party than Kontron or their authorized agents Furthermore any product which has been or is suspected of being damaged as a result of negligence improper use incorrect handling servicing or maintenance or which has been damaged as a result of excessive current voltage or temperature or which has had its serial number s any other markings or parts thereof altered defaced or removed will also be excluded from this warranty Ifthe customer s eligibility for warranty has not bee
166. s sub menu While entering setup BIOS auto detects the presence of IDE devices This displays the status of auto detection of IDE devices Selects sub menu 5 1 4 3 4 1AHCI Porto sub menu Device Vendor Size SATA PortO Auto Not Installed Show device type Show HDD name and brand Show HDD size N A When using Not Installed the controller will Select the type oleh Ge connected to the disable the device system 5 1 4 3 4 2AHCI Port1 pn sub menu Device Show device type Vendor Show HDD name and brand Size N A Show HDD size N A aan Select the type of device Auto When using Not Installed the controller will SATA Port1 Not Installed dicablethe device connected to the system 92 AT8050 ron com Software Setup 5 1 4 3 4 3AHCI Port2 ebd sub menu Device Show device type Vendor vA Show HDD name and brand Size N A Show HDD size N A nq Select the type of device SATA Port2 Auto When using Not Installed the controller will conn cteddd the Not Installed disable the device system 5 1 4 4 Event Log Configuration sub menu View Event Log Enter View all unread events in the Event Log the Event Log Mark all unread events as read in the Event Mark all unread events Mark Events as read Enter Log as read in the Event Log Clear all Event Logs Enter Discard all events in the Event Log ell events in the Event Log Options PCIE Error Log ye
167. sition Module RTM Link Rear Transition Module Link Kontron 3 wire protocol RTS Request To Send AT8050 ron com SAS Serial Attached 5 5 SATA Serial ATA SEL System Event Log SFP Small Form factor Pluggable ShMC Shelf Management Controller SMB Same as SMBus SMBUS System Management Bus SMBIOS System Management BIOS SMBUS Same as SMB SMBus System Management Bus SMBus Same as SMB SMBUS System Management Bus SOL Serial Over LAN SPI Serial Peripheral Interface SpeedStep Same as EIST Enhanced Intel SpeedStep Technology SSE2 Streaming SIMD Extension 2 SIMD is Single Instruction Multiple Data SSE3 Streaming SIMD Extension 3 SIMD is Single Instruction Multiple Data SSH Secure SHell A network protocol that allows data to be exchanged over a secure channel between two computers TCLKA Telecom CLocK A AMC Clock Interface TCLKB Telecom CLocK B AMC Clock Interface TCLKC Telecom CLocK C AMC Clock Interface TCLKD Telecom CLocK D AMC Clock Interface TX Transmit TXD Transmit UART Universal Asynchronous Receiver Transmitter USB Universal Serial Bus VCC Power supply VLAN Virtual Local Area Network XAUI ten Attachement Unit Interface A standard for connecting 10 Gigabit Ethernet 10GbE F 4 AT8050 on com
168. st for total memory installed in the system Also Check for DEL or ESC keys to limit memory test Display total memory in the system 3C Mid POST initialization of chipset registers 40 Detect different devices Parallel ports serial ports and coprocessor in CPU etc successfully installed in the system and update the BDA EBDA etc Programming the memory hole or any kind of implementation that needs an adjustment in 20 system RAM size if needed 52 Updates CMOS memory size from memory found in memory test Allocates memory for Extended BIOS Data Area from base memory 60 Initializes NUM LOCK status and programs the KBD typematic rate 75 Initialize Int 13 and prepare for IPL detection 78 Initializes IPL devices controlled by BIOS and option ROMs 7A Initializes remaining option ROMs 7 Generate and write contents of ESCD in NVRam 84 Log errors encountered during POST 85 Display errors to the user and gets the user response for error 87 Execute BIOS setup if needed requested 8C Late POST initialization of chipset registers 8D Build ACPI tables if ACPI is supported 8E Program the peripheral parameters Enable Disable NMI as selected 90 Late POST initialization of system management interrupt AO Check boot password if installed Al Clean up work needed before booting to OS Takes care of runtime image preparation for different BIOS modules Fill the free area in A2 F000h segment with OFFh Initializes the Mic
169. stem Management OEM E Keying Configuration AMC P8 11 Setting Disabled 17 AT8050 www kontron com 2 9 4 2 10GbE and Management to AMC Configuration Figure 2 4 10GbE and Management to AMC 10 GbE MGNT 82576EB Base Interface Channel 1 Base Interface Channel 2 BI 82576EB ip BIOS Settings 1210 1 System Management gt E Keying Configuration gt Management LAN Setting AMC 2 Module 2 System Management gt E Keying Configuration gt AMC P8 11 Setting Disabled 18 AT8050 www kontron com 2 9 4 3 10GbE and Management to RTM Configuration Figure 2 5 10GbE and Management to RTM lt 10 GbE gt GbE Ports 8 10 Ports 9 11 1 Fabric Interface Channel 1 82599EB TEET Sm Fabric Interface utpu Channel 2 82576EB Base Interface Channel 1 Base Interface Channel 2 BI 82576EB ii BIOS Settings 2010 1 System Management E Keying Configuration gt Management LAN Setting RTM 2 System Management OEM E Keying Configuration AMC P8 11 Setting Disabled 19 AT8050 www kontron com 2 9 4 4 AMC to Fabric Interface and Management to Front Panel Configuration Figure 2 6 AMC to Fabric Interface and Management to Front Panel Ports 8 10 Ports 9 11 01 Fabric Interface Channel 1 10 GbE Fabric Interface Channel 2 Base Interface Channel 1 Base Interface Channel 2 BI 82576EB No
170. t 49 2 Watts Allowance for Module Activation Readiness 002h Module Activation and Power Descriptor Count 01h Carrier Activation and Power Descriptors 7Ah 22h FFh Local IPMB Address 7Ah Maximum Module Current 29h 4 1A 2 12 V gt 49 2 Watts Reserved FFh The Carrier Information Table gives the Carrier 0 specification version and the Carrier s AMC sites list 61 AT8050 tron com Table 4 23 Carrier AMC O Record Type ID Coh Record format version 02h Record Length Calculated Record Checksum Calculated Header Checksum Calculated Manufacturer ID 00315Ah PICMG Record ID PICMG Record ID 0x1A Carrier Information Table Record Format Version 00h 0 Extension Version 02h 0 R2 0 Carrier Site Number Count 01h Carrier Site Number 05h 4 3 3 3 AMC Carrier Point To Point Connectivity Information As defined in the AMC O specification On Carrier Device Ids are arbitrarily assigned to devices that implement E Key governed links Remote resources such as 5 use predefined Ids corresponding to their Site Numbers The following table gives the mapping between the devices and the corresponding Ids Table 4 24 Mapping between the devices and the corresponding Ids Devices Resource Id Intel IOH PCI Express Root Complex Port 3 00h Intel IOH PCI Express Root Complex Port 8 01h Intel ICH10 SATA Controller 02h Intel 82576EB NC front rear 03h Onboard Fabric Channel 1 Switch 04h Onboard Fabric Channel 2 Sw
171. t especially if DC power is carried by cables If you are still not able to get your board running contact our Technical Support for assistance Adapter Cables Because adapter cables come from various manufacturers pinouts can differ The direct crimp design offered by Kontron allows the simplest cable assembly All cables are available from Kontron Sales Department Storing Boards Electronic boards are sensitive devices Do not handle or store device near strong electrostatic electromagnetic magnetic or radioactive fields xiii AT8050 www kontron com Preface Regulatory Compliance Statements FCC Compliance Statement for Class B Devices This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference in a residential installation This equipment generated uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to correct the interference by one or more of the following measures Reorien
172. t or relocate the receiving antenna Increase the separation between the equipment and receiver Connectthe equipment into an outlet on a circuit different from that to which the receiver is connected Consult the dealer or an experience radio TV technician for help WARNING A This is a Class B product If not installed in a properly shielded enclosure and used in A accordance with this User s Guide this product may cause radio interference in which case users may need to take additional measures at their own expense Safety Certification All Kontron equipment meets or exceeds safety requirements based on the IEC EN UL CSA 60950 1 family of standards entitled Safety of information technology equipment All components are chosen to reduce fire hazards and provide insulation and protection where necessary Testing and reports when required are performed under the international IECEE CB Scheme Please consult the Kontron Safety Conformity Policy Guide for more information For Canada and USA input voltage must not exceed 60Vdc for safety compliance CE Certification The product s described in this user s guide complies with all applicable European Union CE directives if it has a CE marking For computer systems to remain CE compliant only CE compliant parts may be used Maintaining CE compliance also requires proper cable and cabling techniques Although Kontron offers accessories the customer must ensure that these product
173. t up application processors Re enable cache for boot strap processor Early CPU Init Exit Initializes the 8042 compatible Key Board Controller Detects the presence of PS 2 mouse Detects the presence of Keyboard in KBC port Testing and initialization of different Input Devices Also update the Kernel Variables Traps the INTO9h vector so that the POST INTO9h handler gets control for IRQ1 Uncompress all available language BIOS logo and Silent logo modules Early POST initialization of chipset registers Uncompress and initialize any platform specific BIOS modules Initialize System Management Interrupt Initializes different devices through DIM See DIM Code Checkpoints section of document for more information Initializes different devices Detects and initializes the video adapter installed in the system that have optional ROMs Initializes all the output devices Allocate memory for ADM module and uncompress it Give control to ADM module for initialization Initialize language and font modules for ADM Activate ADM module Initializes the silent boot module Set the window for displaying text information Displaying sign on message CPU information setup key message and any OEM specific information Initializes different devices through DIM See DIM Code Checkpoints section of document for more information Initializes DMAC 1 amp DMAC 2 C 2 AT8050 ron com Initialize RTC date time 3B Te
174. te The AMC must be able to support GbE on ports 8 11 Connection from AMC to the Fabric Interface is either PICMG3 1 option 2 2x1GbE or PICMG3 1 option 1 1xGbE in BIOS Settings 10101 1 um Management gt E Keying Configuration gt Management LAN Setting Front Pane 2 System Management gt OEM E Keying Configuration gt AMC P8 11 Setting Fabric Interface In this configuration it is not possible to boot from the Fabric Interface 20 AT8050 www kontron com 2 9 4 5 AMC to Fabric Interface and Management to AMC Configuration Figure 2 7 AMCto Fabric Interface and Management to AMC Ports 8 10 Ports 9 11 Fabric Interface 82599EB 10 GbE Fabric Interface Channel 2 MGNT 82576EB Base Interface Channel 1 Base Interface Channel 2 BI 82576EB Note The AMC must be able to support GbE on ports 8 11 Connection from AMC to the Fabric Interface is either PICMG3 1 option 2 2x1GbE or PICMG3 1 option 1 1xGbE wits BIOS Settings 2 1 System Management gt OEM E Keying Configuration gt Management LAN Setting 2 Module 2 System Management gt E Keying Configuration gt AMC P8 11 Setting Fabric Interface In this configuration itis not possible to boot from the Fabric Interface 21 AT8050 www kontron com 2 9 4 6 AMC to Fabric Interface and Management to RTM Configuration Figure 2 8 AMC to Fabric Interface and Management to RTM
175. that flat mode is enabled Test base 512KB memory Adjust policies and cache first 8MB Set stack Bootblock code is copied from ROM to lower system memory and controlis given to it BIOS now executes out of RAM Both key sequence and OEM specific method is checked to determine if BIOS recovery is forced Main BIOS checksum is tested If BIOS recovery is necessary control flows to checkpoint EO See Bootblock Recovery Code Checkpoints section of document for more information Restore CPUID value back into register The Bootblock Runtime interface module is moved to system memory and controLis given to it Determine whether to execute serial flash The Runtime module is uncompressed into memory CPUID information is stored in memory Store the Uncompressed pointer for future use in PMM Copying Main BIOS into memory Leaves all RAM below 1MB Read Write including E000 and F000 shadow areas but closing SMRAM Restore CPUID value back into register Give control to BIOS POST ExecutePOSTKernel See POST Code Checkpoints section of document for more information OEM memory detection configuration error This range is reserved for chipset vendors amp system manufacturers The error associated with this value may be different from one platform to the next Refer to memory initialization ERROR CODE D 5 C1 AT8050 on com 2 POST Code Checkpoints The POST code checkpoints are the largest set of checkpoints during the B
176. ts 39 34 AMC Asymmetric Match Bits 33 32 02h Calculated Calculated Calculated 00315Ah 19h AMC Point To Point Connectivity Record 00h Oh 05h Carrier Device 5 gt Onboard Fabric Channel 2 Switch 02h FFFFE7h OFh 1Fh 1Fh 1Fh 071 FFFFE8h OFh 1Fh 1Fh 1Fh 08h FC00005108h 3Fh 00h Exact match 00h Single Channel Link 00h 1000 BaseBX 05h AMC 2 Ethernet 108h AMC Channel 8 LaneO FC00005109h 3Fh 00h Exact match AT8050 tron com Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type Bits 19 12 AMC Link Designator Bits 11 0 00h Single Channel Link 00h 1000 BaseBX 05h 2 Ethernet 109h AMC Channel 9 LaneO The following table gives AMC connectivity details for COM2 On Carrier Device 5 Table 4 32 AMC connectivity details for FPGA Based UART Record Type ID Record format version Record Length Record Checksum Header Checksum Manufacturer ID PICMG Record ID Record Format Version OEM GUID Count OEM GUID Id 0 Record Type Connected device ID AMC Channel Descriptor Count AMC Channel Descriptor Reserved Bits 23 20 Lane 3 Port Number Bits 19 15 Lane 2 Port Number Bits 14 10 Lane 1 Port Number Bits 9 5 Lane 0 Port Number Bits 4 0 AMC Link Descriptor Reserved Bits 39 34 AMC Asymmetric Match Bits 33 32 Link Grouping ID Bits 31 24 AMC Link Type Extension Bits 23 20 AMC Link Type B
177. type code C5h Kontron OEM FRU Information Agent for sensor definition FRU Information Agent FRU2 Data Error Detection Sensor type 5h Kontron FRU Info Agent Event Reading type code 0Ah Generic Discrete offset 6 8 are used see OEM table Sensor type code C5h Kontron OEM FRU Information Agent for sensor definition FRU Information Agent FRU3 Data Error Detection Sensor type FRU3 Agent Discrete Kontron FRU Info Agent Event Reading type code Generic Discrete offset 6 8 are used see OEM table Sensor type code C5h Kontron OEM FRU Information Agent for sensor definition 91 FRUO Agent Discrete 92 FRU1 Agent Discrete 93 FRU2 Agent Discrete 94 Detects communication with the event receiver ShMc has been lost Sensor 95 EventRcv ComLost Discrete type 1Bh Cable Interconnect Event Reading type code 03h Digital Discrete see IPMI v1 5 table 36 2 and table 36 3 for sensor definition IPMC reboot detection Sensor type 24h Platform Alert Event Reading type 96 IPMC Reboot Discrete code 03h Digital Discrete offset 0 1 are used see IPMI v1 5 table 36 3 Sensor type code 24h for sensor definition Kontron IPMC firmware upgrade Status Sensor type C7h Kontron OEM MC firmware upgrade Status Event Reading type code 6Fh Sensor specific offset 0 1 are used see OEM table Sensor type code C7h Kontron OEM MC firmware upgrade Status for sensor definition 97 IPMC FwUp Discr
178. ualization CPU TM function Intel HT Technology Intel SpeedStep tech Intel TurboMode tech Advanced Processor OMIM sub menu Display Display Display Display Display Display Display Modern ordering Legacy ordering Disabled Enabled Enabled Disabled Enabled Disabled Enabled Disabled Enabled Disabled Enabled Disabled Show information about the CPU Show frequency of the CPU Show amount of L1 cache Show amount of L2 cache Show amount of L3 cache Show total of processor including HT Show physical processor present in CPU Allow virtualization to be enable need supported OS The Core i7 support only all enabled or all disabled This allows multiprocessor to be enabled This allows Geyserville 3 to be enabled This allows processor to increase spped when CPU are not used T N A N A N A N A N A MPS and ACPI MADT ordering Modern ordering for Windows XP or later OSes Legacy ordering for Windows 2000 or earlier OSes Enable for legacy operating systems does not support CPUID function gt 3 Enabled Processor virtualization in use Disabled Processor virtualization notin use CPU Thermal Monitor mechanism supoorted 1 and TM2 They are all enabled together When Disabled only one thread per enabled core is enabled Disable Disable GV3 Enable Enable GV3 Turbo Mode allows processor cores to run faster than marked frequency in s
179. uspend management power supply Volts Sensor type 02h voltage Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event Voltage on board 3 3V suspend management power supply Volts Sensor type 02h voltage Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event 33 Vcc 1 8V SUS Threshold 34 Vcc 3 3V SUS Threshold Voltage on board 5V suspend management power supply Volts Sensor type 02h voltage Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event Voltage on board 12V suspend management power supply Volts Sensor type 02h voltage Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event 35 Vcc 5V SUS Threshold 36 Vcc 12V SUS Threshold Voltage on board Vtt payload power supply Volts Sensor type 02h voltage Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event Voltage on board Vtt Ddr payload power supply Volts Sensor type 02h voltage Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based event 37 Vcc Vtt Threshold 38 Vcc VttDdr Threshold Voltage on board Vcore payload power supply Volts Sensor type 02h voltage Event Reading type code 01h threshold based see IPMI v1 5 section 29 13 3 for threshold based eve
180. uxiliary Log Status 31 13 Storage 5Bh 0 0 No Table 4 11 LAN Device Supported Commands for IPMC IPMC LAN Device Commands Set LAN Configuration E ME 23 1 Transport O1h 0 M 0 M Yes ese LARI 23 2 Transport 02h 0 M 0 M Yes arameters Suspend BMC ARPs 23 3 Transport 03h 0 M 0 M Yes Get IP UDP RMCP Statistics 23 4 Transport 04h 0 0 Yes Table 4 12 Serial Modem Device Supported Commands for IPMC IPMC Serial Modem Device Commands Set Serial Modem Configuration 25 1 Transport 10h 0 M 0 M No Get Serial Modem Configuration 25 2 Transport 11h 0 M 0 M No Set Serial Modem Mux 25 3 Transport 12h 0 0 No Get Response Codes 25 4 Transport 13h 0 0 No Set PPP UDP Proxy Transmit Data 25 5 Transport 14h 0 0 No Get PPP UDP Proxy Transmit Data 25 6 Transport 15h 0 0 No Semil PPP UDP Goss 25 7 Transport 16h 0 0 Packet Get pub 25 8 Transport 17h 0 0 No Receive Data 45 AT8050 tron com Serial Modem Connection Active Callback 25 10 Transport 19h 0 0 No Set User Callback ptions 25 11 Transport 1Ah 0 0 No Get User Callback Options 25 12 Transport 1Bh 0 0 No Table 4 13 SOL Commands IPMC SOL Commands SOL Activating 26 1 Transport 20h No Set SOL Configuration Par 26 2 Transport 21h Yes Get SOL Configuration pu 26 3 Transport 22h Yes Table 4 14 PICMG 3 0 Commands for IPMC req IPMC AdvancedTCA PICMG 3 0 Table M Get PICMG Prop
181. ven if blade events are logged into the local SEL the IPMI platform event messages are still generated by the IPMC s Event Generator and sent to the centralized SEL hosted by the Shelf Manager through the 0 communication path PICMG 3 0 chapter 3 5 IPMI 2 0 Section 29 Local SEL is useful for maintenance purposes and provides access to the events when the FRU is extracted from the Shelf 4 2 2 Sensors For more details about onboard sensors consult the application note AN09003 This application note is available from the Kontron web site at www kontron com 39 AT8050 www kontron com 4 3 IPMC 4 3 1 Supported commands The table below lists the IPMI commands supported the IPMC This table is identical as the one provided by and PICMG 3 0 The last column states the Kontron support for the specific command Table 4 1 IPM Device Supported Commands for IPMC on IPMC Get Device ID 20 1 App 01h M M Yes Cold Reset 20 2 App 02h 0 0 Yes Warm Reset 20 3 App 03h 0 0 No Get Self Test Results 20 4 App 04h M M Yes Manufacturing Test On 20 5 App 05h 0 0 Yes Set ACPI Power State 20 6 App 06h 0 0 Yes Get ACPI Power State 20 7 App 07h 0 0 Yes Get Device GUID 20 8 App 08h 0 0 Yes oih Yes Table 4 2 Watchdog Timer Supported Commands for IPMC IPMISpec section NetFn IPMI BMC req Kontron support on IPMC BMC Watchdog Timer Commands Reset Watchdog Timer 27 5 App 2
182. vironmental Vibration Reliability Safety EMC Warranty Management Controller compliant IPMI v2 0 and design to meet CP TA v1 1 compliancy Remote control capability power on off clean shutdown warm reset cold reset via any IPMI channels including LAN Full speed 115200 bps Serial Over LAN LAN access to BIOS menu setup and IPMI Over LAN IPMI v2 0 always available Serial data caching and replay to ease software application troubleshooting and post mortem analysis BIOS Post Code error sent to chassis manager System Event Logging Configurable automatic clean ACPI shutdown policy on disk storage deactivation AMC or RTM Standard PCIe Hot Plug operation embedded with PICMG AMC RTM activation Robust IPMI firmware Update with rollover capability without any payload impact HPM 1 Override configuration for activation of the board AMC RTM without Shelf Manager Intervention Supports a system management interface KCS interrupt driven via an IPMI V2 0 compliant controller Standard IPMI Watchdog for all CPU running phase BIOS execution OS loading and running IPMI Hardware system monitor power voltages memory and all critical components temperature is monitored Extensive sensors monitoring around 100 IPMI sensors and event generation base on thresholds and discrete reading Validated with Red Hat Enterprise Linux V 5 2 WindRiver PNE Linux 2 0 120 W 38V 72V with 12GB of memory no RTM 8 no AMC Maximum
183. vity defined by the ATCA Basic Input Output System Base Management Controller Compact Disk Same as CD ROM Compact Disk Read Only Memory Same as CDROM Compact Disk Read Only Memory Cubic Foot per Minute Command Line Interface AdvancedTCA bused resource Synch clock group 1 AdvancedTCA bused resource Synch clock group 1 bus A AdvancedTCA bused resource Synch clock group 1 bus A AdvancedTCA bused resource Synch clock group 2 AdvancedTCA bused resource Synch clock group 2 bus A AdvancedTCA bused resource Synch clock group 2 bus B AdvancedTCA bused resource Synch clock group 3 AdvancedTCA bused resource Synch clock group 3 bus A AdvancedTCA bused resource Synch clock group 3 bus B Complementary Metal Oxide Semiconductor Also refers to the small amount of battery or capacitor powered CMOS memory to hold the date time and system setup parameters Complex Programmable Logic Device Communications Platforms Trade Association Central Processing Unit This sometimes refers to a whole blade not just a processor component F 1 AT8050 ron com CTS Clear To Send DDR3 DDR3 SDRAM or Double Data Rate three 3 Synchronous Dynamic Random Access Memory DHCP Dynamic Host Configuration Protocol DIMM Dual In line Memory Module DMA Direct Memory Access DMI Desktop Management Interface DTC Data Transfer Controller DTR Data Terminal Ready DTS Digital Thermal Sensor in IA32 processors DVD Digital Video Disk ECC Erro
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