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ORT82G5 fiches techniques PDF

Lattice Semiconductor - 0.6 to 3.7 Gbps XAUI and FC FPSCs

Numéro de référence ORT82G5
Description 0.6 to 3.7 Gbps XAUI and FC FPSCs
Fabricant Lattice Semiconductor 
Logo Lattice Semiconductor 





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ORT82G5 fiche technique
ORCA® ORT42G5 and ORT82G5www.DataSheet4U.com
0.6 to 3.7 Gbps
XAUI and FC FPSCs
July 2008
Data Sheet DS1027
Introduction
Lattice Semiconductor has developed a family of next generation FPSCs intended for high-speed serial backplane
data transmission. Built on the Series 4 reconfigurable embedded System-on-a-Chip (SoC) architecture, the
ORT42G5 and ORT82G5 are made up of SERDES transceivers containing four and eight channels respectively.
Each channel operates at up to 3.7 Gbps across 26 inches of FR-4 backplane, with a full-duplex synchronous inter-
face with built-in Rx Clock and Data Recovery (CDR), and transmitter preemphasis, along with more than 400K
usable FPGA system gates. The CDR circuitry available from Lattice’s high-speed I/O portfolio (sysHSI™), has
already been proven in numerous applications, to create interfaces for SONET/SDH, Fibre Channel, and Ethernet
(GbE, 10 GbE) applications.
Designers can also use these devices to drive high-speed data transfer across buses within any generic system.
For example, designers can build a bridge for 10 G Ethernet: the high-speed SERDES interfaces can implement a
XAUI interface with a configurable back-end interface such as XGMII. The ORT42G5 and ORT82G5 can also be
used to provide a full 10 G backplane data connection and, in the case of the ORT82G5, provide both work and
protection links between a line card and switch fabric.
The ORT42G5 and ORT82G5 provide a clockless high-speed interface for interdevice communication on a board
or across a backplane. The built-in clock recovery of the ORT42G5 and ORT82G5 allows for higher system perfor-
mance, easier-to-design clock domains in a multiboard system, and fewer signals on the backplane. Network
designers will benefit from the backplane transceiver as a network termination device. The device supports embed-
ded 8b/10b encoding/decoding and link state machines for 10 G Ethernet, and Fibre Channel.
The ORT82G5 is pinout compatible with a sister device, the ORSO82G5, which implements eight channels of
SERDES with SONET scrambling and cell processing. The ORT42G5 is pin compatible with the ORSO42G5,
which implements four channels of SERDES with SONET scrambling and cell processing.
Table 1. ORCA ORT42G5 and ORT82G5 Family – Available FPGA Logic
Device
PFU
FPGA Max.
PFU Rows Columns Total PFUs User I/O
LUTs
EBR EBR Bits2 FPGA System
Blocks2
(K)
Gates (K)1
ORT42G5
36
36
1296
204
10,368
12
111
333-643
ORT82G5
36
36
1296
372
10,368
12
111
333-643
1. The embedded core, Embedded System Bus, FPGA interface and MPI are not included in the above gate counts. The system gate ranges
are derived from the following: Minimum System Gates assumes 100% of the PFUs are used for logic only (No PFU RAM) with 40% EBR
usage and two PLLs. Maximum System Gates assumes 80% of the PFUs are for logic, 20% are used for PFU RAM, with 80% EBR usage
and four PLLs.
2. There are two 4K x 36 (144K bits each) RAM blocks in the embedded core which are also accessible by the FPGA logic.
© 2008 Lattice Semiconductor Corp. All Lattice trademarks, registered trademarks, patents, and disclaimers are as listed at www.latticesemi.com/legal. All other brand
or product names are trademarks or registered trademarks of their respective holders. The specifications and information herein are subject to change without notice.
www.latticesemi.com
1
DS1027_07.0

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