PM9311-1 Datasheet, PDF(1/2 Page) PMC-Sierra, Inc

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PM9311-1 Datasheet, PDF (1/2 Pages) PMC-Sierra, Inc – Enhanced TT1TM Switch Fabric

PMC-Sierra,Inc.

Enhanced TT1TM Switch Fabric

Preliminary

PM9311/2/3/5

ETT1â¢ Chip Set

FEATURES

The ETT1TM Chip Set provides a full 32-

port crossbar-based switch fabric.

Shelves of physically separated

linecards can be attached to the switch

fabric by fiber optic links running the

Linecard-to-Switch (LCSTM) protocol.

CONFIGURATIONS

â¢ 320 Gbit/s aggregate full-duplex

bandwidth with a typical configuration

of 32 ports of OC-192c or 10 Gbit/s

Ethernet.

â¢ Each port operates at a fixed rate of 25

million fixed-length cells per second.

The user payload in each cell can be

either 64 or 76 bytes. A 64 byte cell

payload is equivalent to a 12.8 Gbit/s

line rate.

â¢ Each port can be configured as:

a) 1 channel of 25 million cells per

second, appropriate for a single OC-

192c stream or 10 Gbit/s Ethernet, or

b) 4 channels of 6.25 million cells per

second, appropriate for a quad OC-48c

linecard.

SERVICES

â¢ All configurations support four strict

priorities of best-effort traffic for both

unicast and multicast data traffic.

â¢ TDM service provides guaranteed

bandwidth and zero delay variation

with 10Mbit/s per channel resolution.

Can provide Add-Drop type

functionality or ATM CBR service.

â¢ Highly efficient cell scheduling

algorithm together with the use of

Virtual Output Queues and Virtual

Input Queues provides near-output-

queued performance in conjunction

with the fabricâs internal speedup.

â¢ Efficient support for multicast with cell

replication performed within the switch

core. Up to 4096 multicast groups per

port.

LINECARD SUPPORT

â¢ Linecard-to-Switch (LCS) protocol

supports a physical separation

between switch core and linecards of

up to 200 feet/70 m.

â¢ LCS provides a simple credit-based

flow mechanism to avoid cell loss due

to buffer overrun.

MANAGEMENT

â¢ In-band management and control via

Control Packets. These Control

Packets are exchanged between the

linecard and the switch core, and

enable the linecards to communicate

directly with the CPU that controls the

switch fabric.

â¢ Out-of-band (OOB) management and

control via a dedicated CPU interface.

Every ETT1 device has an OOB

interface that provides a CPU-based

control and diagnostics interface. A

single CPU can control every ETT1

device in a full fabric.

FAULT TOLERANCE

â¢ Optional redundancy of all shared

components for fault tolerance. A fully

redundant fabric is capable of

sustaining single errors within any

replicated device without losing or re-

ordering any cells.

â¢ Hot-swap support for live insertion/

removal of boards from an active

system.

ADDITIONAL SPECIFICATIONS

â¢ Provides a standard five signal

P1149.1 JTAG test port for boundary

scan test purposes.

â¢ 2.5V and 1.5V rails. CMOS I/Os are

3.3V tolerant (except JTAG I/Os)

â¢ PM9311-UC and PM9312-UC are in a

1088 ceramic column grid array

(CCGA) package. PM9313-HC is a

474 ceramic ball grid array (CBGA).

PM9315-HC is a 624 ceramic ball grid

array (CBGA).

DEVICE CONFIGURATION

The following illustration shows how the

ETT1 devices are configured to create a

complete fabric. Many instances of each

device may be needed in a fabric.

Shown are two fabric ports; each port

would be connected to its own

linecard(s). While every fabric port is full-

duplex, the illustration only shows the

ingress stream for the left port and the

egress stream for the port on the right.

The linecard sends cells to the ingress

queues within the Dataslice devices. The

EPP observes their arrival and issues

requests to the Scheduler device. At

some later time, the Scheduler will issue

a grant back to the EPP. On receipt of

the grant, the EPP instructs the

Dataslice to send the cell at the head of

the relevant ingress queue to the

Crossbar. The cell passes through the

Crossbar and is stored in the appropriate

queue at the egress Dataslices. The

egress EPP then instructs the Dataslices

to send the cell to the destination

linecard.

ETT1TM DEVICE CONFIGURATION

Ingress

Flow from

Linecard

LCS

Protocol

Interface

1 of 32 ETT1 Ports

Dataslice

PM9313-HC

Enhanced Port Processor

PM9315-HC

Crossbar

PM9312-UC

Flow Control

Crossbar

PM9312-UC

1 of 32 ETT1 Ports

Dataslice

PM9313-HC

Egress

Flow to

Linecard

LCS

Protocol

Interface

Enhanced Port Processor

PM9315-HC

data cell flow

control flow

Scheduler

PM9311-UC

PMC-2000411

PROPRIETARY AND CONFIDENTIAL TO PMC-SIERRA, INC., AND FOR ITS CUSTOMERSâ INTERNAL USE

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