VSC6134
Datasheet
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10 Gbps Enhanced Forward Error Correction, Digital Wrapper Processor
Features
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Applications
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Two ITU-T G.709-compliant processors
GR253-compliant STS192 section and line
processor
OTU synchronous and asynchronous mapping
10 GbE transport with RMON MIB per
IEEE 802.3
ITU-T G.975 Reed Solomon encoder and decoder
16-bit Intel and Motorola-compatible
microprocessor interface
PRBS generation and detection
Adaptation and regenerator functionality
supported
JTAG boundary scan
3.5 W typical power dissipation
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Long-haul and metro transponder with
STS192/10 GbE/G.709 performance monitoring
and G.975 or enhanced FEC
Long-haul and metro regenerator with
G.709 performance monitoring and G.975 or
enhanced FEC
Dual G.709 regenerator
Network-to-network bridge
OTN optical crossconnect
General Description
The VSC6134 is a bidirectional transport processor providing forward error correction (FEC), SONET/SDH section
and line processing, 10 Gbps Ethernet performance monitoring and G.709 digital wrapper processing for fiber optic
transmission lines operating at ~10 Gbps. As recommended by ITU-T G.975 and G.709, VSC6134 provides FEC
function based on a block-oriented Reed Solomon code RS(255,239) in addition to an optional proprietary enhanced
FEC (EFEC) code that provides increased gain with the same overhead as RS(255,239). The required error
correction symbols are transferred out of band increasing the transmission data rate by ~7.6%. This provides a net
coding gain (accounting for bandwidth penalties) of better than 7.6 dB at 1x10E-12 corrected BER, and 8.6 dB at
1x10E-15 corrected BER. This compares to 6.3 dB at 1x10E-15 for G.709-compatible standard FEC.
As recommended by ITU-T G.709, in standard FEC mode, error coding is performed using a 16x interleaved,
block-oriented Reed Solomon RS (255,239) code, resulting in a maximum correctable burst error length of 1024 bits.
In the EFEC mode, different concatenated codes with iterative decoding are used to provide increased coding gain
performance. Due to the out of band transmission of the parity bits and framing/overhead information, the
transmission rate is increased by a factor of ~1.076 (compared to the OC-192 rate) in both standard and EFEC modes,
resulting in a ~10.709 Gbps transmission rate.
The VSC6134 FEC device is especially suitable for SONET/SDH applications as it supports monitoring and
generation of section overhead and line overhead for fiber optic transmission lines operating at OC-192 rate. 10 Gb
Ethernet applications are also supported through non-intrusive monitoring of the 64B/66B PCS encoded data at
10.3125 Gbps. The device meets IEEE and IETF Ethernet monitoring requirements for managed objects, MIB
objects, and RMON according to 802.3, RFC2665 and RFC2819.
VMDS-10185 Revision 4.0 ©
VITESSE SEMICONDUCTOR CORPORATION
• 741 Calle Plano • Camarillo, CA 93012
Tel: (800) VITESSE • FAX: (805) 987-5896 • E-mail: prodinfo@vitesse.com
July 2006
Internet: www.vitesse.com
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