S10126PBI Applied Micro Circuits Corporation, S10126PBI Datasheet - Page 4

S10126PBI

Manufacturer Part Number

S10126PBI

Description

Manufacturer

Applied Micro Circuits Corporation

Datasheet

1.S10126PBI.pdf (6 pages)

Specifications of S10126PBI

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Yahara - S10123, S10124, S10126

G.709 Overhead Processing

• Insert/Drop Port for access to all of ODU-2 overhead

• Dedicated GCC ports

Ingress and Egress Client/Line Data Performance Monitoring

• 1 x OC192C TOH Add/Drop and processing

• 8B/10B PCS monitoring

• 10GbE L1/L2 Monitoring (PCS and MAC)

• SONET/SDH Section/Line Overhead Monitoring per GR-253

Industry Standard RS(255,239) Forward Error Correction with

6.2 dB Coding Gain

• G.709 Compliant Frame Structure

Enhanced Gain Forward Error Correction with G.709 ODU

• 10.71Gbps, 10.66Gbps, 11.1Gbps, and 11.27Gbps rates with

• G.709 overhead processing and nominal rate expansion

• Comprehensive channel statistics gathering

• Corrected bits, bytes

• Corrected zeros, ones (with outputs)

• Uncorrectable sub-frame count

System/Backplane and Line / Client side loopback

• System/Backplane side, Line side and Client side loopbacks

Support For System Test and Diagnostics

• Can synthesize WIS (SONET/SDH) frame

• Error injection capability for verification of remote error

• Test-set compliant pseudo-random sequence generation/

General Purpose Processor Interface

• Glueless 16-bit interface to MPC860, 25 MHz to 66 MHz

• Dual mode interface also supports Intel processors

• Interrupt driven or Polled mode operation

Additional Protocol Support

• FEC Frame Synchronous scrambling

• Programmable sequence detection

Optical Module Control

• Two-wire serial interface compliant to the XFP/SFP+ specifi-

• Dedicated optical module control signals for XFP/SFP+ con-

10GE-LAN MAPPING

The YAHARA device(s) support 7 distinct methods to map

10GE-LAN into either OTU-2 or WIS (OC-192/STM-64) signals

for transport. Several of the mapping modes are similar to

modes implemented in Rubicon and Pemaquid.

The first mode is the Bit Transparency Mode. In this mode, the

Line rate operates at 7% above the PCS Encoded Rate.

Specifically, the XAUI (Ethernet) data is transparently mapped

into an OTU-2 frame and output at either 11.096 or 11.049Gbs,

depending if fix stuff bytes are provisioned or not.

and IEEE802.3ae WIS standards

enhanced FEC with >8dB coding gain

reporting

analysis

cation

trol

(at 10

-15

CER)

AppliedMicro Confidential and Proprietary

The second and third mapping methods are similar and involve

GFP-F encapsulation directly into a standard rate 10.7GHz

OTU-2 frame. The two methods employ different manners of

system/backplane flow control to limit the system/backplane

data rate so that correct encapsulation into the OTU-2 frame

can take place. The first method of flow control is called “pre-

emptive” flow control. In this mode the YAHARA device(s)

assert flow control signals back to the system/backplane in

regular intervals, thereby guaranteeing that the system/

backplane does not overflow the capacity of the OTU-2 frame.

The second method allows for the user to place a FIFO-fill line

on the ingress system/backplane fifo inside the YAHARA

device(s). When the FIFO-fill line is crossed the YAHARA

device(s) assert flow control signals back to the system/

backplane in order to bleed off the ingress system/backplane

FIFO.

The fourth manner of 10E-LAN mapping also involves GFP

mapping, and in addition, utilizes some of the OPU overhead

bytes to enable full 10GbE preamble transparency and yield a

G.709/OTU-2 compliant 10.7Gb/s signal. No back-pressure/

flow control mechanism is required to rate limit the system/

backplane in this mode of operation.

The fifth manner in which 10GE-LAN mapping is supported is

the WIS mode. In this mode, 10GE-LAN traffic is directly

encapsulated into a WIS frame and output at a 9.953 Gb/s rate.

Additionaly, in a similar sixth mode, the WIS frame can further

be encapsulated into an OTU-2 frame and output at a G.709

compliant 10.7Gb/s signal.

Finally the YAHARA device(s) also supports a pure LAN SERDES

mode, where the 10GbE LAN signal is passed through the

YAHARA device(s) and output on the Line interface at a

10.3Gb/s rate.

10G FIBRE CHANNEL MAPPING

The YAHARA device(s) support a 10G Fibre Channel (FC) to

OTU-2 mapping mode, where the 10G FC traffic entering the

YAHARA device(s) via the SFI4.2 interface is mapped directly

into an OTU-2 signal before being presented over the Line

interface at a 11.32/11.27 Gb/s rate, pending the use/non-use

of stuff byte columns. In the reverse direction an OTU-2 signal

carrying a 10G FC signal can be OTU- 2 terminated and then

directly presented over the SFI4.2 system interface.

The YAHARA device(s) also support a PCS PHY mode. In this

mode the 10G FC traffic entering/exiting the XAUI interface can

be 64B/66B encoded/decoded and then mapped/demapped

into an OTU-2 signal before being transmitted/received off of

the 10G Line interface.

The YAHARA device(s) also supports a SERDES pass-thru mode,

where the 10G Fibre Channel LAN signal is passed through the

YAHARA device(s) and output on the Line interface at a

10.51Gb/s rate.

PRODUC T BRIEF

S10126PBI Applied Micro Circuits Corporation, S10126PBI Datasheet - Page 4

S10126PBI

Specifications of S10126PBI

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