10GE OC192/48/12/3 DW/FEC/PM AsyncMap Device with Strong Part Number S
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RUBICON-LH
10GE OC192/48/12/3 DW/FEC/PM AsyncMap Device with Strong Part Number S19227PBI
Revision 1.9, March 2006
FEATURES
"Right Sized" Transport 10GE-LAN signals through Network
different flow-control options used client allow 10GE-LAN signal packed into OTU-2. Proprietary 10GE-LAN OTU-2 without transport rate increase client flow control.
G.709 ODU-1 Synchronous Asynchronous mapping
OC48/STM-16 mapping (239,238) G.709. Direct (239,238) into ODU-1.
G.709 Overhead processing
Bi-directional add-drop ODU-1, ODU-2. Bi-direction G.709 Overhead Processing optional OTU2 Fixed Stuff Columns access. Dedicated ports.
Superb flexibility with industry standard SFI4P1 support both line client ports device.
Proven CMOS from AMCC. Provides 705Mbps I/O, covering 11.1GHz operation full bandwidth 10GE-LAN client OTUk formatted signal 11.27GHz operation Fibre Channel client OTUk formatted signal. Provides port swapping output dual feed features line protection scheme.
Ingress Egress Client Data Performance Monitoring
OC192/48/12/3 add-drop processing. 8B/10B Monitoring. 10GE Monitoring. SONET/SDH section line termination. add-drop port. LOS, OOF, detection. monitoring with programmable Signal Degrade Signal Fail thresholds. Monitoring, SONET modes. monitoring changes, line line RDI. Automatic, interrupt-driven, manual insertion. Frame boundary output.
Integrated Patented Dispersion Compensation Control Circuitry Client Line interfaces (second generation AMCC's DispersionXX solution)
Proven AMCC's DispersionXX solution (NIAGARA S3094). Available with S3394. Available both client line interfaces Rubicon. Best-in-class optical fidelity solution providing longest reach without regeneration.
Industry Standard RS(255,239) Forward Error Correction with Coding Gain 10-15 CER)
G.709 Compliant Frame Structure. Compatible with AMCC's S19203 (HUDSON) S19208 (NIAGARA).
Easy software migration from industry leading AMCC NIAGARA device
Significant reuse Niagara register Rubicon. Minimal effort maximum benefit upgrade path from original DispersionXX (NIAGARA S3094) solution.
G.709 ODU-2 Synchronous Asynchronous mapping
OC192/STM-64 mapping (239,237) G.709. Direct (239,238) into
Figure Block Diagram
OC-192/STM-64 OTU2 ODU2
OC-192/STM-64 OTU2 ODU2
ODU-2 Demap
ecoder
ncoder
ODU-2
FINAL/Production Release Information information contained this document about product that been fully tested, charactereized, producted released. features described herein supported. Contact AMCC updates this document latest product status.
Empowering Intelligent Optical Networks
RUBICON-LH
10GE OC192/48/12/3 DW/FEC/PM AsyncMap Device with Strong Part Number S19227PBI
Revision 1.9, March 2006
Enhanced Gain Forward Error Correction with G.709
10.71, 10.66, 11.1, 11.27Gbps enhanced with >8dB coding gain. G.709 overhead processing nominal rate expansion. Comprehensive channel statistics gathering. Corrected bits, bytes. Corrected zeros, ones (with outputs). Uncorrectable sub-frame count.
Rubicon-LH device capable running both these gains simultaneously, providing superb single chip transponder solution standard gain enhanced gain networks. Note that Rubicon-LH will employ same industry leading EFEC code that used AMCC Niagara device, making these devices totally compatible.
DATA INTERFACES
Both Client Network interfaces SFI-4 compliant. Data transferred 16-bit LVDS parallel data with synchronous clock. Gbps applications, both Client Network interface rate vary between Mbps Mbps, aggregate bandwidth 9.95 Gbps 11.28 Gbps. defined parallel LVDS interface 31.25 Mbps (across bits interface) aggregate bandwidth Mbps. device supports OC192/STM-64, G.709 OTU-2, ITU-G.709 ODU-2, proprietary direct (into ODU-2) data client rate 10.519 Gbps.
Broad Interface Compatibility
16-bit Mbps LVDS interface (MSA compliant) Gbps interface. Compatible with AMCC HUDSON, GANGES, KHATANGA, COLUMBIA, MAROS, MEKONG, NIAGARA, S3091/92, S3097/98, S19235, S3394 S3485.
Client Line side loopback
Client side line side loopback Rubicon.
Support System Test Diagnostics
synthesize SONET frame. Error injection capability verification remote error reporting. Test-set compliant pseudo-random sequence generation/analysis.
CLIENT PERFORMANCE MONITORING
SONET/SDH performance monitor supporting OC192/48/12/3 SDH64/16/4/1 rates provided perform optional-section limited-line termination functions. SONET signal dropped added. chip processing critical functions, such provided enable functioning SONET/SDH network element. performance monitor also configured provide non-intrusive monitoring while transparently passing through received signal with overwrite. Gbps signal Gbps signal synchronously asynchronously mapped into ODU-2 ODU-1 payloads, respectively. parity check bytes then optionally added form OTU-2 OTU-1. device also output OTU-2 OTU-1 with parity check bytes. receive direction, data de-mapped from OTU-2 OTU-1 control signals provided enable timing regeneration client Gbps Gbps signal. When operating G.709 OTU-2/OTU-1 ODU-2/ODU-1 mode, SONET monitors bypassed. Unlike Niagara device, Rubicon-LH provides capability intrusive SONET/SDH performance monitoring inside frame. Onchip processing G.709 overhead provided enable single chip G.709 section termination. G.709 Overhead added dropped required. remapping that required synchronization asynchronous ODU-1 signals supported. Client-signal monitoring 8B/10B encoded data also provided, well 64B/66B monitoring 10GE-LAN traffic. full 10GE-LAN also included Rubicon-LH device support extensive 10GE monitoring.
General Purpose Processor Interface
Glueless 16-bit interface MPC860, MHz. Dual mode interface also supports Intel processors. Interrupt driven Polled mode operation.
Additional Protocol Support
Frame Synchronous scrambling. Programmable sequence detection.
Compatibility NIAGARA device Power CMOS Technology
Volt core operation. Volt I/O.
APPLICATIONS
SONET/SDH OC48/STM-16 OC192/STM-64 DWDM transport systems DWDM metro networks. Transparent Add-Drop Multiplexing Transponder applications. Protocol Transparent Transport. IaDI IrDI transponder chip (6.2dB gain network >8dB gain network).
GENERAL DESCRIPTION
AMCC Rubicon-LH device wide-area metropolitan transport device aimed next generation applications, required transparent mapping, enhanced error correction capability. device utilizes G.709 frame overhead structures enable deployment full compliant network elements. Rubicon-LH will support gain rates, standard G.975 based rate 6.2dB (raw optical coding gain), AMCC's proprietary EFEC code, rated greater than (raw optical coding gain).
10GE-LAN MAPPING
Rubicon-LH device supports distinct methods 10GE-LAN into OTU-2 transport. first same manner supported Niagara; that line rate will above client rate with full 10GE-LAN being mapped into expanded OTU-2 frame. this mode, line rate Rubicon
Empowering Intelligent Optical Networks
RUBICON-LH
10GE OC192/48/12/3 DW/FEC/PM AsyncMap Device with Strong Part Number S19227PBI
Revision 1.9, March 2006
will 11.1GHz. second manner 10GE-LAN mapping supported Rubicon-LH involves direct mapping client signal into 10.7GHz OTU-2 frame. There flow control rate limit client this mode.
modes.
FORWARD ERROR CORRECTION CAPABILITY
options supported Gbps line side. Rubicon-LH support standard RS(255,239) compliant with G.709, G.975, compatible with AMCC Hudson device. device also support enhanced algorithm that applied using same G.709 frame structure data rate used Hudson Niagara devices, providing more than additional coding gain (*measured 1015 Rubicon-LH device will operate mode where both encoders decoders working simultaneously, allowing single chip transponder operate between networks with different gain characteristics.
SUPPORT
applications which client signal SONET SDH, Rubicon-LH generate SONET/SDH both client ingress egress. applications which client signal G.709 compliant regenerator applications, Line Fail un-equipped supported. edge applications, device provisioned provide either SONET/SDH Generic client. This facilitates convergence SONET/SDH functions into single network element.
LEGACY COMPATIBILITY
indicated above, Rubicon-LH also supports operation G.975 mode. this mode, G.709 overhead processing inhibited direct access non-framing bytes overhead column provided through pins device. device should configured operate 255,238 mapping mode with stuff columns inserted payload.
MAPPING
compliant client mapping SONET OC192 STM-64 into ODU-2 signals (and corresponding 2.5G signals into ODU-1) supported whereby stuff column added every G.709 sub-frame resulting rate expansion (239/237). chip configured insert G.709 compliant stuff byte value insert user data into this column. values assigned stuff bytes defined either from register chip from external add-drop port. Coverage these stuff columns calculation optional enabled software. When no-coverage option enabled, parity check values calculated standard stuff values were present. direct mode supported ODU-2 ODU-1 with stuff columns enable mapping with 239/238 rate expansion. Start-of-frame signals provided input output ports enable synchronization ODU.
FOOTPRINT COMPATIBILITY
addition significant reuse Niagara register Rubicon, Rubicon will also compatible with Niagara device. Although core power balls will driven lower voltage (1.2V versus 1.8V), with careful board design considerations, customer will able realize Rubicon-LH device sockets designed Niagara chip. This capability will allow customer more feature rich lower power dissipation device target socket.
CONTROL INTERFACE
general purpose 16-bit microprocessor interface provided control monitoring. interface supports both Intel Motorola type microprocessors, capable operating either interrupt driven polled-mode configurations.
LOOPBACK FUNCTIONS
Near-end far-end loopback supported each client interfaces line interface. This enables line device testing fault isolation. Each functional block bypassed required support application. When blocks bypassed, device allows transparent pass-through client data (assuming synchronous inputs). status alarm signals provided outside pins enable rapid response failure conditions. These include limited LOS, OOF, LOF, Errors, errors. Three interrupt pins, each with mask register provided enable prioritization interrupts timely interaction with firmware. addition loopback capabilities device, RubiconLH also employs unique port swapping capability allowing physical ports device interfaced either side encoders. With this capability customer EFEC core either physical port device. This capability increases flexibility single board design used variety
Empowering Intelligent Optical Networks
RUBICON-LH
10GE OC192/48/12/3 DW/FEC/PM AsyncMap Device with Strong Part Number S19227PBI
Revision 1.9, March 2006
APPLICATION DIAGRAMS
Figure OC192/STM64 OTU-2 Edge Transponder
Figure shows Rubicon-LH edge transponder application. client-side interface achieved through connection standard SFI4P1 Transponder. network side, AMCC S19235 S3394 used provide highperformance interface network side optics. This diagram also diagram mid-span transponder either standard standard network standard enhanced
network. either these mid-span transponder applications, client rate would increase from standard SONET rate overhead rate.
Figure OC192/STM64 OTU-2 Edge Transponder
S19235 300Pin odule
ubicon
S3394
E-LAN 192/S64
10.7G
ispersionXX-2 hipset
Empowering Intelligent Optical Networks
RUBICON-LH
10GE OC192/48/12/3 DW/FEC/PM AsyncMap Device with Strong Part Number S19227PBI
Revision 1.9, March 2006
APPLICATION DIAGRAMS
Figure OC48/STM16 Aggregation OTU-2 Edge Transponder
Figure shows Rubicon-LH edge transponder application where client signals first aggregated AMCC Pointer Processor chip called Mekong. Once Mekong aggregates client 2.5G SONET/SDH signals into OC192C/STM64 signal, this then passed onto Rubicon-LH which performs encapsulation creates overhead.
network side, AMCC S19235 S3394 used provide high-performance interface network side optics.
Figure OC48/STM16 Aggregation OTU-2 Edge Transponder
S4850
S19235
S4848
Mekong Maros
RubiconLH
S3394
S4850
OTU2 10.7GHz
OC48/STM16
DispersionXX-2 Chipset
AMCC reserves right make changes products, datasheets, related documentation, without notice warrants products solely pursuant terms conditions sale, only substantially comply with latest available datasheet. Please consult AMCC's Terms Conditions Sale warranties, other terms, conditions, limitations. AMCC discontinue semiconductor product service without notice, advises customers obtain latest version relevant information verify, before placing orders, that information current. AMCC does assume liability arising application product circuit described herein, neither does convey license under patent rights rights others. AMCC reserves right ship devices higher grade place those lower grade. AMCC SEMICONDUCTOR PRODUCTS DESIGNED, INTENDED, AUTHORIZED, WARRANTED SUITABLE LIFE-SUPPORT APPLICATIONS, DEVICES SYSTEMS OTHER CRITICAL APPLICATIONS. AMCC registered Trademark Applied Micro Circuits Corporation. Copyright 2004 Applied Micro Circuits Corporation.
Moffett Park Drive Sunnyvale, 94089 Tel: 408-542-8600 Fax: 408-542-8601 http:// www.amcc.com; technical support, please call 840-6055 email support@amcc.com
Empowering Intelligent Optical Networks
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