PEX8614-AA50BC PLX [PLX Technology], PEX8614-AA50BC Datasheet - Page 3

PEX8614-AA50BC

Manufacturer Part Number

PEX8614-AA50BC

Description

Flexible & Versatile 12-lane 12-port PCI Express Switch

Manufacturer

PLX [PLX Technology]

Datasheet

1.PEX8614-AA50BC.pdf (4 pages)

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shows a controller card with a PEX 8614 connecting the

Control Processor to as many as eleven line cards each via an

x1 connection. This usage model provides connectivity to

multiple line cards giving the processor control over a large

number of line cards in communication platforms.

Control Planes for Large Systems

Two PEX 8614 devices can be used in applications where

there is need for more than 11 line cards and the processor has

2 PCIe ports. An example of a control plane application with

more than 11 line cards is shown in Figure 4.

Embedded Control Planes

The PEX 8614 is well suited for embedded control plane

applications. An example of such application is a packet

processing module, as shown in Figure 5. In this example, the

FPGAs and ASICs implement an x1 PCI Express Interface.

With its high port count, the PEX 8614 can provide

connectivity to a high number of FPGAs and ASICs for a

robust packet processing communications sub-system.

Figure 4. Control Planes for Large Systems

Figure 5. Packet Processing Module

Figure 3. Control Plane Application

Intelligent Adapter Card

The PEX 8614 supports the non-transparency feature.

Figure 6 illustrates a host system using an intelligent adapter

card.

In this figure, the CPU on the adapter card is isolated from the

host CPU. The PEX 8614 non-transparent port allows the two

CPUs to be isolated but communicate with each other through

various registers that are designed in the PEX 8614 for that

purpose. The host CPU can dynamically re-assign both the

upstream port and the non-transparent port of PEX 8614

allowing the system to be reconfigured.

Active-Standby Failover Model

The PEX 8614 supports applications requiring dual host, host

failover applications through the non-transparency (NTB)

feature. Figure 7 illustrates a dual host system with an active

and standby processor configuration.

The redundancy of the host and the fabric can be achieved

through many possible configurations using NTB function of

PEX 8614. In the configuration shown below Processor A is

the primary active host of the PCI Express system. Processor

B acts as the backup Host. In the case of a failure on Processor

A, application software is instructed to migrate the PCI

Express system to Processor B. Consequently, Processor B

becomes the active host and Processor A can be replaced as

the backup Host.

Processor A

Processor

Control

Memory

Figure 7. Active-Standby Host Mode

Figure 6. Intelligent Adapter Usage

Processor B

PEX 8614

Processor

Control

Memory

To Line Cards

LC #1

LC #10

PEX8614-AA50BC PLX [PLX Technology], PEX8614-AA50BC Datasheet - Page 3

PEX8614-AA50BC

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