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VXS Cover VME Switched Serial “VXS” is a trademark of VITA.

Published byHugh Caldwell Modified over 8 years ago

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Presentation on theme: "VXS Cover VME Switched Serial “VXS” is a trademark of VITA."— Presentation transcript:

1 VXS Cover VME Switched Serial “VXS” is a trademark of VITA

2 VXS Overview Adds switched serial interconnect(s) to the VME architecture coincident with the VMEbus parallel bus. Employs standard open technology for the serial switched links. Accommodates multiple switched serial technologies, but not necessarily at the same time. Utilizes MULTIGIG RT 2 connector in P0 position. Demonstrated to support 10 Gb/s. Pulls additional DC power onto each VME card over existing P1/P2 pins (VITA 1.7). Maintains backward compatibility.

3 VXS Family of Standards ANSI/VITA Standard Draft Standard VXS 41.1 InfiniBand Protocol Layer VXS 41.2 Serial RapidIO Protocol Layer VXS 41.8 10GbE Protocol Layer VXS 41.3 GbE Protocol Layer VXS 41.4 PCI Express Protocol Layer VXS 41.5 Aurora Protocol Layer VXS 41.6 1x Gigabit Ethernet Control Channel Layer VXS 41.0 VMEbus Switched Serial Base Specification VXS 41.10 Live Insertion System Requirements

4 Relative Bus Performance FeaturePCI busPCI-XVME64 2eSST VME VXS TopologyShared bus Switched serial Theoretical maximum bandwidth 264 MB/s1064 MB/s80 MB/s320+ MB/s 2.5 Gb/s per 1x link Practical maximum bandwidth ~100 MB/s~760 MB/s~40 MB/s320 MB/s8 Gb/s Simultaneous transactions 1111Many Aggregate bandwidth~100 MB/s~760 MB/s~40 MB/s320 MB/s36 GB/s Bus performance is a reason to use VME!

5 Why VXS? The most demanding applications (e.g. SPE, radar, sonar, image processing, etc.) require: –High performance, scalable processing power –Very high data transfer capabilities –Extremely low latency Currently these applications make use of: –VMEbus for “control plane” communication –A proprietary or quasi-standard bus for “data plane” communication Standard interfaces are now able to address these needs and provide: –Less Contention –Increased Scalability –Less Routing Real Estate –Higher Bandwidth –Low Latency

6 Multiple Topologies Dual StarSingle StarMesh

7 VXS components Payload board Switch board Example backplane Note: not all backplanes would need a switch! P0 connector 200 insertions Courtesy Tyco Electronics www.multigigrt.com Alignment and Protocol Keying

8 VMEbus VXS Switch Card Connection Example SwItchslotSwItchslot P2P2 P0P0 P1P1 An example 8 user-slot, 1 switch card backplane Fabric Switch Slot 1 link Slot 2 link Slot 3 link Slot 4 link Slot 5 link Slot 6 link Slot 7 link Slot 8 link VXS Switch Card (no VME) Logical connections to switch card Slot 8 P1 P0 P2 Slot 1 P1 P0 P2 Slot 2 P1 P0 P2 Slot 3 P1 P2 Slot 4 P1 P0 P2 Slot 5 P1 P0 P2 Slot 6 P0 Slot 7 P0

9 VXS Backplane VME – VXS Compatibility 2eSST VME Legacy VME VXS + 2eSST VME Fabric Only VXS (no parallel bus) Parallel Bus Compatible Switched Serial Compatible All of these cards can coexist in the same VXS chassis Capability

10 Payload Board Top Handle Bottom Handle Front Panel 4 HP P1 P2 P0 K0 Photo courtesy of TEK Microsystems, Inc.

11 Switch Board

12 VXS: Connectors VITA 41 payload board P0 connector VITA 41 switch card P1-P5 connectors

13 VXS Suppliers Supplier SBC Switch DSP/FPGA A/D Converter Digitizer (DAC) Backplane Chassis/Enclosure Extender Card Software Defined Radio Receiver RF Tuner Data Recorder Systems Development Platform Concurrent Technologies Plc  CSP Inc.  Curtiss-Wright Controls, Inc.  Elma Bustronic Corporation  Elma Electronic Inc.  EVOC Intelligent Technology Hartmann Electronic  Mercury Computer Systems, Inc.  Meritec / Joy Signal Technology  Pentek, Inc.  SIE Computing Solutions  TEK Microsystems, Inc.  W-IE-NE-R, Plein & Baus GmbH 

14 VXS Products TEK Microsystems, Inc. Atlas TEK Microsystems, Inc. ADC-DCA Pentek, Inc. 4207 CSP Inc. M16 Switch

15 VXS Products Elma VXS 18 Slot Hartmann VXS Backplane

16 VXS Details

17 VXS is Fabric Agnostic VXS provides multi Gb/sec serial switched fabric capability to Eurocard VMEbus form factor using P0 Accommodates multiple interconnect technologies –41.1 – InfiniBand –41.2 – Serial RapidIO –41.3 – 1000BaseCX Ethernet –41.4 – PCI Express –41.5 – Aurora –41.6 – 1x Gigabit Ethernet Control –41.8 – 10GbEthernet

18 Performance for the Future! 1 MB/s10 MB/s100 MB/s1 GB/s100 GB/s10 GB/s VME64 MBLT VME64 MBLT w/Tsi148 VME 2eSST w/Tsi148 VXS Generation 1 (3.125 Gbps links) VXS Generation 2 (5.0 Gbps links) VXS Generation 3 (6.4 Gbps links) VXS = 8 lanes/slot x 18 slots/chassis

19 VXS versus VPX VXSVPX 30G Performancexx Full ecosystemxx Backwards compatibilityxw/hybrid only Use of both PMCs & XMCsxXMC only Low hardware costsx Low software upgrade costsx Simple design, implementationx Fully defined and mature specificationx More available slots in 19" chassis (typical)x 100G+ performancex Amount of user IOx Standard RTM connector/solutionxvaries Slot pitch.8" payload 1.0" switch 1.0" typical Base Maximum channels Switch: 192 pairs, Payload: 16 pairs 6U: 192 pairs 3U: 64 pairs Sizes6U3U, 6U Voltages3.3V, +V5, +-V125V, 12V, 48V Topologies (typical)Star, Dual StarMesh, Hybrid

20 VXS Market Opportunities Program requirements are demanding VXS solutions! VXS allows existing deployed systems to scale in compute capacity and capability while preserving past hardware and software investments. New applications with the same I/O. –Combat Vehicle Systems –Medical: CT, MRI, X-Ray VXS permits customers to migrate to, and bridge from, current legacy interconnects to unifying high performance network. –Navy Shipboard Systems VXS permits high speed data pipes and content alongside real time processing. –Airborne ISR

21 Payload P0 Pin Definition

22 RapidIO Pinout Each payload board supports up to two 4X Serial RapidIO ports. Example Fabric Pinout VITA 41.2

23 Insertion Force Switch Board Mating ForceUnmating Force Test ValueMaximumTest ValueMinimum P582 N108 N39 N22 N P482 N108 N39 N22 N P382 N108 N39 N22 N P282 N108 N39 N22 N P182 N108 N39 N22 N PPWR122 N Sum463 N (105 lbf)586 N (105 lbf)215 N (105 lbf)136 N (105 lbf) Payload Board Mating ForceUnmating Force Test ValueMaximumTest ValueMinimum P077 N101 N37 N20.3 N N = Newtons

24 VXS Backplane Configuration - Maximum VXS is NOT limited to the configuration depicted in the example diagram of the 41.0 base spec! Dual star Single star Daisy chain Small mesh Dual star Single star Daisy chain Small mesh Photo courtesy of Elma Electronic, Inc.

25 VXS Alternate Backplane Configurations 6 VXS + 1 switch + 1 VME64X Photo courtesy of Hartmann Electronic 6VXS + 2 switch Photo courtesy of Elma Electronic, Inc. 18 VXS + 2 switch + 1 VME64X Photo courtesy of Hartmann Electronic

26 VXS No Switch Slot Configuration 3 slot - 0 switch, 3 payload All of these configurations and topologies use the same VXS payload board No switch Active backplane switching

27 RTM Keying Solution Front Alignment Rear Alignment IEC 61076-4-101 Keying M2 Screw

28 Gb Ethernet Pin Mapping (VITA 41.3) Row GRow FRow ERow DRow CRow BRow A 1PA_SCLE0_TX-E0_TX+GNDE0_RX-E0_RX+GND 2 E1_TX-E1_TX+GNDE1_RX-E1_RX+ 3PA_SDAE2_TX-E2_TX+GNDE2_RX-E2_RX+GND 4 E3_TX-E3_TX+GNDE3_RX-E3_RX+ 5RFUGNDRFU GNDRFU 6GNDRFU GNDRFU GND 7RFUGNDRFU GNDRFU 8GNDRFU GNDRFU GND 9RFUGNDRFU GNDRFU 10GNDRFU GNDRFU GND 11PEN*GNDRFU GNDRFU 12GNDE4_TX-E4_TX+GNDE4_RX-E4_RX+GND 13PB_SCLGNDE5_TX-E5_TX+GNDE5_RX-E5_RX+ 14GNDE6_TX-E6_TX+GNDE6_RX-E6_RX+GND 15PB_SDAGNDE7_TX-E7_TX+GNDE7_RX-E7_RX+

29 PCI Express Pin Mapping (VITA 41.4) Row GRow FRow ERow DRow CRow BRow A 1PA_SCLGNDPA_TX0-PA_TX0+GNDPA_RX0-PA_RX0+ 2GNDPA_TX1-PA_TX1+GNDPA_RX1-PA_RX1+GND 3PA_SDAGNDPA_TX2-PA_TX2+GNDPA_RX2-PA_RX2+ 4GNDPA_TX3-PA_TX3+GNDPA_RX3-PA_RX3+GND 5RFUGNDRFU GNDRFU 6GNDRFU GNDRFU GND 7RFUGNDRFU GNDRFU 8GNDRFU GNDRFU GND 9RFUGNDRFU GNDRFU 10GNDRFU GNDRFU GND 11PEN*GNDRFU GNDRFU 12GNDPB_TX0-PB_TX0+GNDPB_RX0-PB_RX0+GND 13PB_SCLGNDPB_TX1-PB_TX1+GNDPB_RX1-PB_RX1+ 14GNDPB_TX2-PB_TX2+GNDPB_RX2-PB_RX2+GND 15PB_SDAGNDPB_TX3-PB_TX3+GNDPB_RX3-PB_RX3+

30 Gigabit Ethernet Control Pin Mapping (VITA 41.6) Row GRow FRow ERow DRow CRow BRow A 1PA_SCLGNDPA_TX0-PA_TX0+GNDPA_RX0-PA_RX0+ 2GNDPA_TX1-PA_TX1+GNDPA_RX1-PA_RX1+GND 3PA_SDAGNDPA_TX2-PA_TX2+GNDPA_RX2-PA_RX2+ 4GNDPA_TX3-PA_TX3+GNDPA_RX3-PA_RX3+GND 5RFUGNDPA_SGTX-PA_SGTX+GNDPA_SGRX-PA_SGRX+ 6GNDRFU GNDRFU GND 7RFUGNDRFU GNDRFU 8GNDRFU GNDRFU GND 9RFUGNDRFU GNDRFU 10GNDRFU GNDRFU GND 11PEN*GNDPB_SGTX-PB_SGTX+GNDPB_SGRX-PB_SGRX+ 12GNDPB_TX0-PB_TX0+GNDPB_RX0-PB_RX0+GND 13PB_SCLGNDPB_TX1-PB_TX1+GNDPB_RX1-PB_RX1+ 14GNDPB_TX2-PB_TX2+GNDPB_RX2-PB_RX2+GND 15PB_SDAGNDPB_TX3-PB_TX3+GNDPB_RX3-PB_RX3+

31 Customer Challenge - Consolidate computing, preserve existing I/O designs and interfaces, design an architecture that will scale computing capability. CASE: Clustering CPU Resources - Challenge Computing and I/O is now distributed throughout the vehicle in various sub- assemblies

32 VXS Solution - Consolidate computing into single chassis with low latency high speed interconnect (InfiniBand), bridge to existing VMEbus I/O designs with VMEbus repeater. CASE: Clustering CPU Resources- Solution Switched-serial backplane fabric provides ability to scale and cluster computing resources. SWITCHES

33 Customer Challenge – Integrate sensor front-end processing with post- processing. Reduce the time from information acquisition to action. Integrate high speed data pipes with real time sensor processing. CASE: Data Pipes & Real Time Requirements NETWORK SENSOR SUITE PLATFORM 2 Sensor front-end Real-time requirements Customer-specific VMEbus designs PLATFORM 1 Post Processing Not co-located with sensor Large integrated data payload

34 VXS Solution – High speed local interconnect and computing integrated with customer-specific front-end processing. One platform for real- time processing, high speed content processing, distribution. CASE: Data Pipes & Real Time Requirements SWITCHES

35 Customer Challenge - Consolidate computing, preserve existing I/O designs and interfaces, design an architecture that will scale computing capability. CASE: Clustering CPU Resources Computing and I/O is now distributed throughout the vehicle in various sub- assemblies

36 VXS Solution - Consolidate computing into single chassis with low latency high speed interconnect (InfiniBand), bridge to existing VMEbus I/O designs with VMEbus repeater. CASE: Clustering CPU Resources Switched-serial backplane fabric provides ability to scale and cluster computing resources. SWITCHES

37 ) LAN L System Domain 3 Customer Challenge – Evolve to a single high performance network interconnect, maintain interfaces to existing network and data links on proven VME hardware, consolidate networking across system application domains. CASE: Evolve to Single Interconnect ) LAN L System Domain 2 ) LAN L System Domain 1 Ethernet 1553 SCSI FDDI ATM MIL-STD-1397 MIL-STD-751 HIPPI RS-232/422 Other

38 VXS Solution – Provide a unifying high performance interconnect while supporting the wide range of existing legacy interconnects supported on qualified VMEbus board level product. CASE: Evolve to Single Interconnect Gateway to existing interfaces, enables integration and unification of the network, bandwidth in and out of the box, supports “spiral development”

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