SMART Embedded Computing ATCA-F140 Series Installation And Use Manual
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SMART Embedded Computing ATCA-F140 Series Installation And Use Manual

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ATCA-F140 Series
Installation and Use
P/N: 6806800M67S
September 2019

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Summary of Contents for SMART Embedded Computing ATCA-F140 Series

  • Page 1 ATCA-F140 Series Installation and Use P/N: 6806800M67S September 2019...
  • Page 2 Computing” and the SMART Embedded Computing logo are trademarks of SMART Modular Technologies, Inc. All other names and logos referred to are trade names, trademarks, or registered trademarks of their respective owners. These materials are provided by SMART Embedded Computing as a service to its customers and may be used for informational purposes only. Disclaimer* SMART Embedded Computing (SMART EC) assumes no responsibility for errors or omissions in these materials.

  • Page 3: Table Of Contents

    2.9.1 Installing QSFP+ Transceiver Modules ........64 ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 4 4.6.3 eUSB Flash Module ..........98 ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 5 Linux Devices ............118 ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 6 Related Documentation ............135 C.1 SMART Embedded Computing Documentation ....... . 135 C.2 Related Specifications .
  • Page 7 Linux Devices ............118 ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 8 Specifications ............136 ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 9 Alignment Tool Location on Rear of Chassis (Stowed Position) ... . . 133 Figure B-5 Alignment Tool Location on Rear of Chassis (Slot 9 and Slot 6) ... . . 134 ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 10: List Of Figures

    List of Figures ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 11: About This Manual

    Appendix B, ATCA-F140-D Information on page 131 contains information specific to the ATCA-F140-D blade. Appendix C, Related Documentation on page 135 provides a listing of related product documentation, manufacturer’s documents, and industry standard specifications. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 12 FPGA Field Programmable Gate Array IPMB Intelligent Platform Management Bus IPMC Intelligent Platform Management Controller IPMI Intelligent Platform Management Interface JTAG Joint Test Action Group Keyboard Controller Style Light Emitting Diode Low Pin Count ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 13 Serial AT Attachment SDRAM Synchronous Dynamic Random Access Memory SELV Safety Extra Low Voltage Small Form Factor Pluggable SFP+ Small Form Factor Pluggable Plus SGMII Serial Gigabit Media Independent Interface ShMC Shelf Management Controller ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 14 SRAM Static Random Access Memory SROM Serial Read-only Memory Synchronization Supply Unit Twisted-pair Ethernet TSEC Triple Speed Ethernet Controller UART Universal Asynchronous Receiver/Transmitter Universal Serial Bus Very Low Profile XAUI 10Gb Attachment Unit Interface ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 15 Ranges, for example: 0..4 means one of the integers 0,1,2,3, and 4 (used in registers) Logical OR Indicates a hazardous situation which could result in death or serious injury Indicates a hazardous situation which may result in minor or moderate injury ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 16 Indicates an electrical situation that could result in moderate injury or death Indicates that when working in an ESD environment care should be taken to use proper ESD practices No danger encountered; pay attention to important information ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 17 6806800M67L July 2014 114. 6806800M67K June 2014 Updated Chapter 6 Switches. Re-branded to Artesyn template and updated 6806800M67J May 2014 Table 4-6 on page 102. 6806800M67H November 2013 Updated Table 2-1 on page 41. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 18 Updated table 3-1 on page 66. Updated figures in Chapter 4, Functional 6806800M67D March 2013 Description. 6806800M67C December 2012 Updated Standard Compliances on page 34. 6806800M67B April 2012 GA Release 6806800M67A February 2012 EA Version ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 19: Safety Notes

    Failure to comply with these precautions or with specific warnings elsewhere in this manual could result in personal injury or damage to the equipment. SMART Embedded Computing intends to provide all necessary information to install and handle the product in this manual. Because of the complexity of this product and its various uses, we do not guarantee that the given information is complete.
  • Page 20 Wait until the blue LED is permanently illuminated before removing the blade. Removing the blade with the blue LED still blinking causes data loss. Restricted Access Area This product is only to be installed in a restricted access area. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 21 Rear Transition Module Damage of the RTM Incorrect installation of the RTM can cause damage to the RTM. Use handles when installing/removing the RTM to avoid damage/deformation to the face plate and/or PCB. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 22 A and input line B so that input line A remains powered even if it is disconnected from the power supply circuit (and vice versa).To avoid damage or injuries, always check that there is no voltage on the line that has been disconnected before continuing your work. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 23: Switch Settings

    Make sure the TPE bushing of the system is connected only to safety extra low voltage circuits (SELV circuits).  If in doubt, ask your system administrator. For more information, see the documentation of the respective product. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 24 Eye Damage Optical SFP/SFP+ modules may emit laser radiation when no cable is connected. This laser radiation is harmful to your eyes. Do not look into the optical lens at any time. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 25 PCB or the battery holder. Environment Environmental Damage Improper disposal of used products may harm the environment. Always dispose of used products according to your country’s legislation and manufacturer’s instructions. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 26 Safety Notes Safety Notes ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 27: Notice De Sécurité

    émet et utilise de l'énergie à radiofréquence et, s'il n'est pas installé correctement et utilisé conformément à cette documentation de l’utilisateur, il peut causer des interférences néfastes aux communications radio. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 28 électrostatique ESD appropriée. Installation Lésions corporelles Ce produit opère à des voltages dangereux qui peuvent causer des blessures ou la mort. Faites preuve de prudence lorsque vous manipulez, testez ou ajustez l’équipement et ses composantes. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 29 à la lame avant de quitter l’usine. Des broches tordues causées par une installation inadéquate ou par l’insertion de cartes avec des connecteurs endommagés pourraient annuler la garantie SMART EC pour le fond de panier ou les lames. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 30 VGA offrent un boîtier anti-incendie conforme aux exigences IEC/EN/UL/CSA 60950-1. Tous les autres appareils qui sont seulement connectés à l'interface VGA à des fins de maintenance doivent être surveillés durant l’opération et doivent être déconnectés après la maintenance. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 31 Mauvais fonctionnement du produit Ne modifiez pas les configurations des commutateurs marqués Reserved. Les commutateurs marqués Reserved peuvent comporter des fonctions liées à la production et entraîner un mauvais fonctionnement du produit si les paramètres sont modifiés. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 32 Assurez-vous que la température de fonctionnement de tous les modules AMC installés et de l'ATCA-F140 en tant qu'ensemble se situent dans les limites autorisées. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 33 Endommagement du module SFP/SFP+ La fiche du port optique protège les fibres optiques contre la saleté et les dommages. Les saletés et les dommages peuvent rendre le module SFP/SFP+ inutilisable. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 34 PCB ou le support de batterie. Environnement Dommage Environnemental Une disposition impropre des produits usagés peut être nocif pour l’environnement. Éliminez les produits usagés toujours conformément à la législation de votre pays et aux instructions du fabricant. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 35: Sicherheitshinweise

    Verletzungen oder Schäden am System zur Folge haben. SMART Embedded Computing ist darauf bedacht, alle notwendigen Informationen zum Einbau und zum Umgang mit dem System in diesem Handbuch bereit zu stellen. Da es sich jedoch bei dem System um ein komplexes Produkt mit vielfältigen Einsatzmöglichkeiten...
  • Page 36 Person, die mit dem System arbeitet, diese als ESD-Schutz benutzt. Installation Verletzungsgefahr Dieses Produkt wird mit gefährlichen Spannungen betrieben, die zu Verletzungen und Tod führen können. Seien Sie äußerst vorsichtig, wenn Sie dieses Gerät und seine Komponenten handhaben, testen und einstellen. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 37 Pins und Stecker von Blades vor dem Verlassen der Produktionsstätte in einwandfreiem Zustand befinden. Verbogene Pins, verursacht durch fehlerhafte Installation oder durch Installation von Blades mit beschädigten Steckern kann die durch SMART EC gewährte Garantie für Blades und Backplanes erlöschen lassen. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 38 Brandgehäuse gemäß den Anforderungen von IEC / EN / UL / CSA 60950-1 bereitstellen. Alle anderen Geräte, die nur zu Servicezwecken mit der VGA-Schnittstelle verbunden sind, müssen während des Betriebs überwacht werden und müssen nach den Wartungsarbeiten getrennt werden. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 39 Fehlfunktion des Produkt Ändern Sie nicht die Schaltereinstellungen, die als Reserved gekennzeichnet sind. Schalter, die mit Reserved gekennzeichnet sind, können produktionsbedingte Funktionen enthalten und zu einer Fehlfunktion des Produktes führen, wenn die Einstellungen geändert werden. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 40 Die Installation von AMC-Modulen mit kleineren Betriebstemperaturbereichen auf dem ATCA-F140 Board, kann den Betriebstemperaturbereich des ATCA-F140 Boards weiter einschränken. Stellen Sie sicher, dass die Betriebstemperatur aller installierten AMC- Module und von dem ATCA-F140 Board als Paket innerhalb der zulässigen Grenzen liegen. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 41 Blicken Sie daher nicht direkt in die Öffnung eines SFP/SFP+-Moduls, um Verletzungen der Augen zu vermeiden. Beschädigung von SFP/SFP+-Modulen Die Schutzkappe eines SFP/SFP+-Modules dient dazu, die sensible Optik des SFP/SFP+- Modules gegen Staub und Schmutz zu schützen. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 42 Wenn Sie die Batterie mit einem Schraubenzieher ausbauen, können das PCB und die Batteriehalterung beschädigt werden. Umweltschutz Umweltschäden Unsachgemäße Entsorgung von gebrauchten Produkten kann die Umwelt schädigen. Entsorgen Sie gebrauchte Produkte stets gemäß der in Ihrem Land gültigen Gesetzgebung und den Empfehlungen des Herstellers. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 43: Introduction

    On-board SATA connector for a 2.5" SATA drive with selectable interface to either the service processor or the processor AMC  Real time clock  RJ-45 UART console interface to service processor on front panel ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 44: Standard Compliances

    2-3 Class 3.1 locations) ETSI storage requirements in system level (not ETSI Storage EN 300 019-2-1 Class 1.2 temperature-controlled storage locations) ETSI Transportation: EN 300 019-2- ETSI public transportation requirement on system level 2 Class 2.3 ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 45: Mechanical Data

    Weight 2.8kg Ordering and Support Information The data sheets for the ATCA-F140 series of blades contain a complete list of available blade variants and blade accessories. Refer to Appendix C, Related Documentation consult your local SMART EC sales representative for the availability of other variants.

  • Page 46: Product Identification

    SMART EC sales representative or visit https://www.smartembedded.com/ec/support/. Product Identification The following graphic shows the location of the serial number label. Figure 1-1 Serial Number Location Serial Number ASSY# COO LABEL PIN1 PIN1 ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 47: Hardware Preparation And Installation

    Shipment Inspection 1. Verify that you have received all items of your shipment:  One printed copy of Safety Notes Summary  One ATCA-F140 blade  Any other items that were ordered ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 48: Requirements

    Operating temperatures refer to the temperature of the air circulating around the blade, and not to component temperatures. If you integrate the blade in your own non-SMART Embedded Computing system, please contact your local sales representative for further safety information.

  • Page 49: Table 2-1 Environmental Requirements

    Exceptional Operation: 5%rH to Relative According to Telcordia GR-63-CORE 90%rh non-condensing Humidity (NEBS) and EN 300 019-1-1, Classes 1.2 According to Telcordia GR-63-CORE and 2.3 (NEBS) and EN 300 019-1-3, Classes 3.1 and 3.1E ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 50: Thermal Requirements

    C), the chassis must meet or exceed PICMG 3.7 R1 Class B.3 ATCA ° Chassis Specification. PICMG 3.7 R1 Class B.4 compliance is preferred. Contact your SMART Embedded Computing sales representative for current information on the detailed thermal information including airflow and resistance of the blade. System Overheating - Cooling Vents Improper cooling can lead to system damage and can void the manufacturer's warranty.

  • Page 51: Power Requirements

    Incorrect installation or removal of additional devices or modules damages the product or the additional devices or modules. Before installing or removing additional devices or modules, read the respective documentation and use appropriate tools. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 52: Blade Configuration

    The hard drive kits are listed in the respective product data sheets - refer to Appendix C on page for all related documentation. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 53: Blade Installation And Removal

    If there is a Rear Transition Module (RTM) to install, install and secure the RTM first as described in the RTM-ATCA-F140 Series Installation and Use Guide, then install the front blade. If an RTM is already installed, make sure that the RTM face plate screws are fully tightened to secure the RTM to the shelf.
  • Page 54 3. Insert blade into the shelf by placing the top and bottom edges of the blade in the card guides of the shelf. Make sure that the guiding module of shelf and blade are aligned properly. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 55 If an RTM is connected to the front blade, make sure that the handles of both the RTM and the front blade are closed in order to power up the blade’s payload. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 56: Removing The Blade

    Data Loss Removing the blade with the blue LED still blinking causes data loss. Wait until the blue LED is steadily lit before removing the blade. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 57 If the LED continues to blink, it is possible that the upper layer software has rejected the blade extraction request. 3. Remove the face plate cables, if applicable. 4. Remove the blade from the shelf. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 58: Amc Module Installation And Removal

    ESD-safe environment. AMC Module Damage The AMC bay should only be used with AMC modules that are officially supported by SMART Embedded Computing. Installing and operating other AMC modules may damage the AMC bay and the blade. NOTICE...
  • Page 59 4. Once the blue LED glows steadily, gently pull the AMC module handles outwards to disconnect the module from the AMC connectors. Continue to gently slide the module outwards along the guide rails. 5. Install the filler panel. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 60: Installing And Removing Sfp Modules

    The maximum power consumption of each SFP module should be 1W. The maximum power consumption of each SFP+ module should be 1.5W. 2.8.1 Installing an SFP Module Installation Procedure In order to install an SFP module, proceed as follows: ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 61 Dirt and damage can render the SFP module inoperable. Only remove the optical plug when you are ready to connect a cable to the SFP module. When no cable is connected, cover the port with an optical port plug. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 62: Removing An Sfp Module

    3. Connect the network cable to the SFP module. 2.8.2 Removing an SFP Module Removal Procedure In order to remove an SFP module, proceed as follows. 1. Remove any connected cable from the SFP module. ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 63 Dirt and damage can render the SFP module inoperable. Only remove the optical plug when you are ready to connect a cable to the SFP module. When no cable is connected, cover the port with an optical port plug. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 64: Installing And Removing Qsfp+ Modules

    3. Align the QSFP+ transceiver to the front of the module’s transceiver socket opening. Slide it carefully into the socket until the QSFP+ transceiver connects with the socket electrical connector. – For QSFP+ transceivers with a bail-clasp latch, keep it aligned in a vertical position. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 65: Removing Qsfp+ Transceiver Modules

    Install the dust plug into the transceiver’ optical bore. – Hold the tab and pull the receiver gently to release the transceiver from the socket. – Slide the transceiver from the socket. 4. Place the QSFP+ transceiver into an anti-static bag. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 66: Replacing The Battery

    The battery provides data retention of seven years summing up all periods of actual data use. SMART Embedded Computing therefore assumes that there is usually no need to replace the battery except, for example, in case of long-term spare part handling.

  • Page 67: Controls, Leds, And Connectors

    QSFP+ Ports ETH2 ETH3 Base Uplink SFP+ Ports ETH4 Service Processor Ethernet Port Telco Clocks 2x4 RJ-45 Connectors Reset Hot Swap Button RESET Service Processor Console T1/E1-2 T1/E1-1 Telco Clock LOCK MODE LEDS ATCA-F140 ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 68: Leds

    Yellow Blinking - Free Run LOCK (Telco Clock LED 3) Green Locked Blinking - Status unknown NOTE: Shaded lines for Telco Clock LED 1, 2, 3 & 4 apply only to the ATCA-F140-TCLK3 blade. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 69: Face Plate Connectors

    RJ-45 Pin 10Base-T or 100Base-TX 1000Base-T ETH_TX+ ETH_DA+ ETH_TX- ETH_DA- ETH_RX+ ETH_DB+ ETH_DC+ ETH_DC- ETH_RX- ETH_DB- ETH_DD+ ETH_DD- Table 3-3 Service Processor Serial RS-232 RJ-45 Connector (J1) RJ-45 Pin Function (RS-232) Not used Not used ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 70: Table 3-4 Qsfp+ Connector Pin Assignment

    QSFP+ Connector Pin Assignment Contact Function Contact Number Function Number TX2n TX1n TX2p TX1p TX4n TX3n TX4p TX3p ModselL LPMode ResetL Vcc1 VccRx VccTx IntL ModPrsL RX3p RX4p RX3n RX4n RX1p RX2p RX1n RX2n ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 71: Backplane Connectors

    1 - 4 Reserved Hardware Address Bit 0 Hardware Address Bit 1 Hardware Address Bit 2 Hardware Address Bit 3 Hardware Address Bit 4 Hardware Address Bit 5 Hardware Address Bit 6 Hardware Address Bit 7 ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 72 IPMB Clock Port B IPMB Data Port A 17 - 24 Not used Shelf Ground Logic Ground Enable B Voltage Return A Voltage Return B Early -48V A Early -48V B Enable A -48V A -48V A ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 73: Zone 2

    CLK3B+ CLK3B- UC_P2_TX+ UC_P2_TX- UC_P2_RX+ UC_P2_RX- UC_P3_TX+ UC_P3_TX- UC_P3_RX+ UC_P3_RX- UC_P0_TX+ UC_P0_TX- UC_P0_RX+ UC_P0_RX- UC_P1_TX+ UC_P1_TX- UC_P1_RX+ UC_P1_RX- FIX_P12_TX2+ FIX_P12_TX2- FIX_P12_RX2+ FIX_P12_RX2- FIX_P12_TX3+ FIX_P12_TX3- FIX_P12_RX3+ FIX_P12_RX3- FIX_P12_TX0+ FIX_P12_TX0- FIX_P12_RX0+ FIX_P12_RX0- FIX_P12_TX1+ FIX_P12_TX1- FIX_P12_RX1+ FIX_P12_RX1- ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 74: Table 3-8 Connector J21 Pin Assignment

    FIX_P9_RX1+ FIX_P9_RX1- FIX_P8_TX2+ FIX_P8_TX2- FIX_P8_RX2+ FIX_P8_RX2- FIX_P8_TX3+ FIX_P8_TX3- FIX_P8_RX3+ FIX_P8_RX3- FIX_P8_TX0+ FIX_P8_TX0- FIX_P8_RX0+ FIX_P8_RX0- FIX_P8_TX1+ FIX_P8_TX1- FIX_P8_RX1+ FIX_P8_RX1- FIX_P7_TX2+ FIX_P7_TX2- FIX_P7_RX2+ FIX_P7_RX2- FIX_P7_TX3+ FIX_P7_TX3- FIX_P7_RX3+ FIX_P7_RX3- FIX_P7_TX0+ FIX_P7_TX0- FIX_P7_RX0+ FIX_P7_RX0- FIX_P7_TX1+ FIX_P7_TX1- FIX_P7_RX1+ FIX_P7_RX1- ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 75: Table 3-9 Connector J22 Pin Assignment

    FIX_P4_RX1+ FIX_P4_RX1- FIX_P3_TX2+ FIX_P3_TX2- FIX_P3_RX2+ FIX_P3_RX2- FIX_P3_TX3+ FIX_P3_TX3- FIX_P3_RX3+ FIX_P3_RX3- FIX_P3_TX0+ FIX_P3_TX0- FIX_P3_RX0+ FIX_P3_RX0- FIX_P3_TX1+ FIX_P3_TX1- FIX_P3_RX1+ FIX_P3_RX1- FIX_P2_TX2+ FIX_P2_TX2- FIX_P2_RX2+ FIX_P2_RX2- FIX_P2_TX3+ FIX_P2_TX3- FIX_P2_RX3+ FIX_P2_RX3- FIX_P2_TX0+ FIX_P2_TX0- FIX_P2_RX0+ FIX_P2_RX0- FIX_P2_TX1+ FIX_P2_TX1- FIX_P2_RX1+ FIX_P2_RX1- ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 76: Table 3-10 Connector J23 Pin Assignment

    BIX_P2_DD+ BIX_P2_DD- BIX_P3_DA+ BIX_P3_DA- BIX_P3_DB+ BIX_P3_DB- BIX_P3_DC+ BIX_P3_DC- BIX_P3_DD+ BIX_P3_DD- BIX_P4_DA+ BIX_P4_DA- BIX_P4_DB+ BIX_P4_DB- BIX_P4_DC+ BIX_P4_DC- BIX_P4_DD+ BIX_P4_DD- BIX_P5_DA+ BIX_P5_DA- BIX_P5_DB+ BIX_P5_DB- BIX_P5_DC+ BIX_P5_DC- BIX_P5_DD+ BIX_P5_DD- BIX_P6_DA+ BIX_P6_DA- BIX_P6_DB+ BIX_P6_DB- BIX_P6_DC+ BIX_P6_DC- BIX_P6_DD+ BIX_P6_DD- ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 77: Table 3-11 Connector J24 Pin Assignment

    BIX_P12_DD+ BIX_P12_DD- BIX_P13_DA+ BIX_P13_DA- BIX_P13_DB+ BIX_P13_DB- BIX_P13_DC+ BIX_P13_DC- BIX_P13_DD+ BIX_P13_DD- BIX_P14_DA+ BIX_P14_DA- BIX_P14_DB+ BIX_P14_DB- BIX_P14_DC+ BIX_P14_DC- BIX_P14_DD+ BIX_P14_DD- BIX_P15_DA+ BIX_P15_DA- BIX_P15_DB+ BIX_P15_DB- BIX_P15_DC+ BIX_P15_DC- BIX_P15_DD+ BIX_P15_DD- BIX_P16_DA+ BIX_P16_DA- BIX_P16_DB+ BIX_P16_DB- BIX_P16_DC+ BIX_P16_DC- BIX_P16_DD+ BIX_P16_DD- ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 78: Zone 3

    Column H SynchE_CLK_ SynchE_CLK_O RTM_REF_CL BIX_P20_RTM BIX_P20_RTM_ +12V_RTM RTM_INT_L RTM_PS1_L _TX+ BIX_P20_RTM BIX_P20_RTM_ BIX_MDC BIX_MDIO BIX_XG_MDC BIX_XG_MDIO FIX_XG_MDC FIX_XG_MDIO _RX+ BCM84740_RT BCM84740_RT SyncE_CLK25 SyncE_CLK25_ M1_PCS_LINK M2_PCS_LINK FIX_GE0_TX+ FIX_GE0_TX- FIX_GE0_RX+ FIX_GE0_RX- FIX_GE1_TX+ FIX_GE1_TX- FIX_GE1_RX+ FIX_GE1_RX- ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 79: Table 3-13 Connector J31 Pin Assignment

    BIX_P22_RX+ BIX_P22_RX- AMC_TX10+ AMC_TX10- AMC_RX10+ AMC_RX10- BIX_P23_TX+ BIX_P23_TX- BIX_P23_RX+ BIX_P23_RX- AMC_TX11+ AMC_TX11- AMC_RX11+ AMC_RX11- BIX_P24_TX+ BIX_P24_TX- BIX_P24_RX+ BIX_P24_RX- BIX_P13_TX+ BIX_P13_TX- BIX_P13_RX+ BIX_P13_RX- BIX_P14_TX+ BIX_P14_TX- BIX_P14_RX+ BIX_P14_RX- PCIE_REFCLK RTM_ENABLE_ +12V_RTM +3.3_MP_RTM PCIE_REFCLK- SYNCHE_RC2 GPS_1PPS SYNCHE_RC1 ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 80: Table 3-14 Connector J32 Pin Assignment

    FIX_P15_RX1+ FIX_P15_RX1- FIX_P14_TX2+ FIX_P14_TX2- FIX_P14_RX2+ FIX_P14_RX2- FIX_P14_TX3+ FIX_P14_TX3- FIX_P14_RX3+ FIX_P14_RX3- FIX_P14_TX0+ FIX_P14_TX0- FIX_P14_RX0+ FIX_P14_RX0- FIX_P14_TX1+ FIX_P14_TX1- FIX_P14_RX1+ FIX_P14_RX1- RTM_SW_CLO RTM_PWRGO BIX_P19_RTM_ BIX_P19_RTM_ RTM_SCL RTM_SDA SPI_CS2_L RTM_RST_L SED_L BIX_P19_RTM_ BIX_P19_RTM_ +12V_RTM +12V_RTM SPI_MISO SPI_MOSI SPI_SCK RTM_PS0_L ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 81: Module Connectors

    J8 AMC Connector P50 COP Header Battery ASSY# P15 H8S debug P9 H8S console COO LABEL J11 SATA Connector PIN1 PIN1 DIP Switch P17 SPI Flash Prog P12 JTAG Header J3 DIMM Socket J2 DIMM Socket ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 82: Amc Connector

    149 GND (to 82571EB) AMC_RX0+ AMC_RX4- 150 Unused (to BIX_P18) (to 82571EB) AMC_RX0- PS0# Unused 151 Unused (to BIX_P18) AMC_TX5+ +12V 118 Unused 152 GND (to 82571EB) AMC_TX5- 119 GND 153 P30_B7 (to 82571EB) ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 83: Table 3-15 Amc Bay Connector Pin Assignment

    (to RTM) mux) AMC_TX2- (to SATA 132 Unused 166 TMS mux) AMC_TX7+ AMC_RX10- 133 Unused 167 TRST# (to 82571EB) (to RTM) AMC_RX2+ AMC_TX7- AMC_RX10+ (to SATA 134 GND 168 TDO (to 82571EB) (to RTM) mux) ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 84: Memory Dimm Socket

    DQS8# 77 ODT1 DQS7 DQ23 +1.5V DQS8 +1.5V +1.5V DQ52 DQ58 DQ28 DQ53 DQ59 DQ29 CK0# DQ32 +1.5V EVENT DQ33 DQS4# 119 +1.5V DQ54 DQS1# 50 CKE0 DQS4 DQ30 DQ55 DQS1 +1.5V DQ31 +1.5V ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 85 +3.3V DQ18 +1.5V DQ43 DQ13 RESET DQ19 CK1# DQ48 CKE1 DQ24 +1.5V DQ49 +1.5V DQ25 +1.5V DQ38 Vrefca DQS6# 137 DQ14 DQ39 DQS3# 68 Par_In DQS6 DQ15 +1.5V DQS3 +1.5V DQ44 DQ50 DQ20 DQ45 ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 86: Sas/Sata Connector

    The ATCA-F140 contains a 10-pin 2mm header for an embedded USB module. The following table shows the pinout assignment for the eUSB header. Table 3-18 P8 eUSB Header Pin Assignment Contact Contact Description Description Number Number No Connect Data- No Connect ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 87: Processor Cop Header

    The ATCA-F140 contains a 20-pin 0.1" header for an Asset JTAG header. The pinout for the header is given in the following table. Table 3-20 P12 Asset JTAG Header Pin Assignment Contact Contact Description Description Number Number JTAG_EN_L (GND on cable) ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 88: H8S Console And Programming Header

    2 to pin 4 and pin 6 to pin 8. The following table shows the pinout assignment for this header. Table 3-21 P9 H8S Console Header Pin Assignment Contact Contact Description Description Number Number H8S_TXD H8S_MD1 Pull down H8S_RXD H8S_MD2# Pull down ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 89: Switches

    Manual power enable of AMC and RTM OFF: AMC and RTM power are controlled by IPMC SW1.3 ON: AMC and RTM power enabled Disable IPMC Watchdog Timer OFF: IPMC watchdog timer enabled SW1.4 ON: IPMC watchdog timer disabled ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 90 Controls, LEDs, and Connectors Controls, LEDs, and Connectors ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 91: Functional Description

    The QorIQ P2020 Integrated Processor provides the following features:  Dual e500 cores  On-die 32KB L1 cache for each core  On-die common 512KB L2 cache with ECC  DDR3 memory controller and interface ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 92: Memory

    Two 240-pin DDR3 DIMM sockets are provided on the ATCA-F140 to host up to 2GB of memory in each DIMM socket using readily available single or dual rank DDR3 registered DIMMs. The memory sockets are keyed for DDR3 modules using a 1.5V supply voltage. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 93: Memory Modules

    1ms after the interrupt signal (IRQ_L[11]) the FPGA asserts the reset signal for at least 50ms.  Read persistent memory bit in FPGA.  Initialize main memory but do not clear persistent memory area. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 94: Ipmi

    Serial UART (SIPL) and KCS/LPC interfaces to the P2020 service processor  Analog voltage sensor inputs  Service processor boot flash fall over selection  Watch-dog timer  Hot swap control  Temperature sensors ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 95: Temperature Sensors

    Air Inlet Component Side 1 45°C 55°C 72°C LM75 BIX (BCM56334) 55°C 70°C 115°C LM75 FIX (BCM56846) 55°C 70°C 110°C On-die thermal diodes Service Processor (P2020) 55°C 65°C 115°C LM75 Stratum Clock Oscillator 50°C 55°C 85°C LM75 ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 96: Fpga

    BCM8727 microcode flash programming - The same SPI controller in the FPGA is used as with configuration Flash programming, but now AUX_SS1 is driven instead of CSO_B (which is deasserted), allowing SPI flash 3 to be programmed. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 97: Boot And User Flashes

    #2, which would then enable writes to flash device #1. At this point, the blade has successfully booted the updated firmware image in flash device #2, so it is safe to allow the firmware update of flash device #1 ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 98: Eusb Flash Module

    The ATCA-F140 provides a 2mm eUSB header (P8). This 10-pin header is designed to support industry-standard low profile 5V eUSB modules. The ATCA-F140 is delivered with an eUSB module installed. Use the blade operating system disk utilities to determine the available storage. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 99: Base Channel Interface

    ShMC port (BC1) connector at the backplane. This connection is compliant to the ShMC cross-connect in PICMG 3.0 R3.0. Table 4-3 Base Switch Mapping Port Name Destination Front Panel Label Base Ch 3 (LS 3) Base Ch 4 (LS 4) Base Ch 5 (LS 5) ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 100 RTM SFP RTM ETH8 ge21 RTM SFP RTM ETH9 ge22 RTM SFP RTM ETH10 ge23 RTM SFP RTM ETH11 RTM SFP+ RTM ETH1 RTM SFP+ RTM ETH2 Front SFP+ Front ETH3 Front SFP+ Front ETH4 ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 101: Fabric Channel Interface

    Fabric Ch 6 (LS 7) wc5-1 Fabric Ch 6 (LS 7) wc5-2 Fabric Ch 6 (LS 7) wc5-3 Fabric Ch 6 (LS 7) wc6-0 Fabric Ch 7 (LS 8) wc6-1 Fabric Ch 7 (LS 8) ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 102 RTM SFP+ RTM ETH5 wc15-2 xe27 RTM SFP+ RTM ETH4 wc15-3 xe28 RTM SFP+ RTM ETH3 wc16-0 xe29 wc16-1 xe30 Front QSFP+ Front ETH1 wc16-2 xe31 wc16-3 xe32 wc17 xe33 Front QSFP+ Front ETH2 ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 103: Sfp+ And Qsfp+ Modules

    FIX_TXONOFF signals from the FPGA. This allows the FPGA to keep the transmitters OFF until the software can come up and take control. The FPGA also provides the QSFP+ LPMODE signals that control whether the module is in low-power mode or high-power mode. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 104: Amc Bay

    FPGA so that the SATA mux control can be manipulated by the service processor through the FPGA. The ATCA-F140 routes AMC ports 8-11 directly to the RTM for support of PCI Express controllers on future versions of RTMs. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 105: 82571Eb Dual Gigabit Ethernet Mac/Phy

    The Intel 82571EB is a PCI Express based single-chip dual Gigabit Ethernet MAC controller with integrated PHY and SerDes cores. Controller 0 is routed to the AMC-to-base cross-connect on update channels (0:1). Controller 1 is routed to the AMC-to-fabric cross- connect on update channels (3:4). ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 106: Channel Cross-Connect

    An Atmel AT25128B device is used for this purpose. 4.10.2 Channel Cross-Connect The base and fabric channel cross-connect scheme using the 82571EB is shown in the figures below Figure 4-4 Base Channel Cross-Connect Figure 4-5 Fabric Channel Cross-Connect ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 107: Storage Hard Disk Drive

    IPMC which sets the selection bit during E-keying initialization. By default, the mux is configured to connect the SATA drive to the service processor. 4.11 Reset Structure The resets for the ATCA-F140 are controlled by the FPGA. Figure 4-6 Reset Structure Diagram ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 108: Service Processor Core Reset Domain

    HRST_L may be asserted at any time completely asynchronously. HRST_L needs to be asserted during power-on reset. During HRST_L assertion, the configuration input signals are sampled into registers inside the QorIQ P2020 Integrated Processor. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 109: 4.11.1.2 Memory

    A power-on or hard reset is initiated by an active low pulse on the SYS_RST_L signal of the Broadcom BCM56846 Fabric Channel Switch. The initialization process loads all the pin configurable modes, clears all switching tables and places the switch in a disabled and idle state. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 110: Physical Interconnect Devices

    Table 4-9 Interrupt Mapping P2020 Interrupt Source Port Signal Source Type Voltage BCM56334 INTA P2020 PCIE 1 INTA Internal BITS Framer 1 Active INT_L BITS1_INT_L Direct DS26503 BITS Framer 2 Active INT_L BITS2_INT_L Direct DS26503 ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 111 P2020 PCIE 3 INTA Internal LASI1_L- Dual Optical PHY LASI2_L BCM8727 LASI_L Optical PHY 1 BCM84740-1 FPGA OPTICAL_PHY_IN Active LVTTL 3.3 (ORed) LASI_L Optical PHY 2 BCM84740-2 QSFP+ Module 1 INT_L QSFP+ Module 2 INT_L ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 112: Jtag Support

    0.9uA/hr. The optional power-down backup method uses a Super CAP with a 1 Farad capacity. This provides 300 hours of RTC/SRAM backup. The default battery is an external +3V lithium battery with a capacity of 200mAh, which provides three years of backup. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 113: U-Boot

    These serial access parameters are the default values. These can be changed from within U-Boot. The console port of the F140 blade also supports the baud rates of 38400 and 115200. For details refer to the U-boot documentation. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 114: Configuring Boot Options

    4. Depending on your network configuration, you may have to specify a gateway IP address and a netmask. Use the following commands: setenv gatewayip <gateway IP> setenv netmask <netmask> 5. Enter saveenv, and then enter boot. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 115: Configuring U-Boot To Boot From Ram Disk

    This section describes how to configure U-boot to boot a Linux kernel stored in the boot flash and to mount the root file system in the user flash. The procedure uses the U-Boot script flashboot, which has been predefined by SMART Embedded Computing. 1. Configure U-boot to boot from flash:...

  • Page 116: Selecting The Boot Flashes

    Persistent memory means that the memory RAM is not deleted during a reset. Memory content can be deleted by performing a power cycle or by temporarily removing the power and then powering up the blade again. This feature is enabled by default on the ATCA-F140. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 117: Memory Map

    Physical Address Map Device Start Address Size DDR3-RAM 0x00000000 Max. 4GByte Active boot flash 0xE0000000 32Mbytes Standby boot flash 0xE2000000 32Mbytes BITS1 0xFFA00000 32Kbytes BITS2 0xFFA100000 32Kbytes FPGA 0xFFDF0000 32Kbytes P2020 CPU 0xFFE00000 32Kbytes ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 118: Linux Devices

    Standby boot flash 0xE3EFFFFF 0xE3F00000 - /dev/mtd7 Kernel DTB Standby boot flash 0xE3F1FFFF U-Boot boot 0xE3F40000 - /dev/mtd8 Standby boot flash parameters 0xE3F5FFFF 0xE3F80000 - /dev/mtd9 U-Boot image Standby boot flash 0xE3FFFFFF /dev/mtd10 FPGA ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 119: Power-On Self Test

    Wrong CPU speed SYS FW SMART EC specific POST error code. For more information, see 0xfd PROGRESS IPMI Sensor - POST Error Event Codes on page 120 0x00 One of the remaining POST errors was detected ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 120: Post Routines

    Check whether bus addresses 0x50,0x51, 0x52 are accessible on bus C buses 0 and 0x50, 0x6E on bus 1. Checks whether the second counter is advancing. Compares the number of CPU ticks in one second against the expected system clock frequency (66 MHz) ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 121: Controlling The Execution Of The Post

    As you can see from the syntax, this command invokes an underlying C function which starts the POST execution. This command can be invoked at any time and it is independent of the environment variable post_enable. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 122: U-Boot Commands

    Face plate push button  rtm_pb: RTM push button) reset_cause  cpu_hreset: CPU HRESET_REQ  cop_hreset: COP HRESET  ipmc: IPMC reset request  sw_wdog: Software watchdog reset  ini_wdog: Initial watchdog reset ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 123: Updating U-Boot

    3. Depending on your network configuration, you may have to specify a gateway IP address as well as a netmask: etenv gatewayip <gateway IP> setenv netmask <netmask> 4. Load the image to the RAM. tftpboot $loadaddr <U-boot file name, for example: u-boot-1.1.6- 59.bin> Speed: 1000, full duplex ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 124 7. Copy the image from the RAM to the currently stand-by U-boot bank: cp.b $loadaddr e3f80000 80000 Copy to Flash... done 8. Make stand-by U-boot active and vice versa, by entering the following command: bootsel switch 9. To boot the new U-Boot, reset the blade. ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 125: Atca-F140-Tclk3 Information

    QSFP+ Ports ETH2 ETH3 Base Uplink SFP+ Ports ETH4 Service Processor Ethernet Port Telco Clocks 2x4 RJ-45 Connectors Reset Hot Swap Button RESET Service Processor Console T1/E1-2 T1/E1-1 Telco Clock LOCK MODE LEDS ATCA-F140 ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 126: Face Plate Connectors

    Inter-Shelf Connectors (J12-Lower 1, 2, 3, and Upper 2, 3) RJ-45 Pin Function Port 1 + Port 1 - Port 2 + Port 3 + Port 3 - Port 2 - Port 4 + Port 4 - ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 127: Telecom Clocking

    T0 and T4 PLLs for the generation of T[0] system clocks and a T[4] SSU clock  Dual T1/E1 ports to allow reception of redundant T[3] BITS/SSU clocks  Generation of a traceable clock  Routing of telecom clocks to AMC site  Statum 3 oscillator ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 128: Telecom Clocking Subsystem

    Figure A-2 Telecom Clocking Subsystem A.3.2 BIT/SSU Support Many offices where the ATCA-F140-TCLK3 is likely to be deployed includes a central Building Integrated Timing Supply (BITS) or Source Synchronization Unit (SSU). ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 129: Ordering And Support Information

    Refer to Appendix C, Related Documentation or consult your local SMART Embedded Computing sales representative for the availability of other variants. For technical assistance, documentation, or to report product damage or shortages, contact your local SMART EC sales representative or visit https://www.smartembedded.com/ec/support/...
  • Page 130 ATCA-F140-TCLK3 Information ATCA-F140-TCLK3 Information ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 131: Atca-F140-D Information

    The following figures show the location of the specially designed attachment blocks, attachment block drawings, and the captive screws in the AXP1440-D. Figure B-1 Location of Attachment Blocks on the ATCA-F140-D Zone 3 ASSY# Attachment Block COO LABEL Zone 2 Attachment Block PIN1 PIN1 ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 132: Figure B-2 Attachment Blocks Used On The Atca-F140-D

    ATCA-F140-D Information ATCA-F140-D Information Figure B-2 Attachment Blocks Used on the ATCA-F140-D Zone 2 Zone 3 Figure B-3 Captive Screws in the AXP1440-D Chassis Internal Captive Screws to lock in the ATCA-F140-D ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 133: Installation

    Use manual has additional information on the use of the alignment tool. Figure B-4 Alignment Tool Location on Rear of Chassis (Stowed Position) RearView Alignment Tool in Stowed Position Alignment Tool Internal Captive Screws Thumb Screws ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 134: Ordering And Support Information

    Refer to Appendix C Related Documentation or consult your local SMART Embedded Computing sales representative for the availability of other variants. For technical assistance, documentation, or to report product damage or shortages, contact your local SMART EC sales representative or visit https://www.smartembedded.com/ec/support/...

  • Page 135: Related Documentation

    SRstackware Intelligent Network Software Layer 3 Configuration Guide 6806800N89 SRstackware Intelligent Network Software Troubleshooting guide 6806800N83 SRstackware Intelligent Network Software Layer 2 Configuration Guide 6806800N86 SRstackware Application Programming Interface Developer Guide 6806800N90 SRstackware FAQ 6806800N91 ATCA-F140 Series Installation and Use (6806800M67S)

  • Page 136: Related Specifications

    Refer to the table below for related specifications. Note that the information in these documents are subject to change without notice. Table C-2 Specifications Organization Document ATCA Base Specification Revision 3.0 PICMG Ethernet/Fiber Channel Specification Revision 1.0 Advanced Mezzanine Card Base Specification Revision 2.0 ATCA-F140 Series Installation and Use (6806800M67S)
  • Page 138 © 2019 SMART Embedded Computing™, Inc. All rights reserved. The stylized “S” and “SMART” is a registered trademark of SMART Modular Technologies, Inc. and “SMART Embedded Computing” and the SMART Embedded Computing logo are trademarks of SMART Modular Technologies, Inc. All other names and logos...

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