RPIXP2850BA Intel, RPIXP2850BA Datasheet - Page 101

RPIXP2850BA

Manufacturer Part Number

RPIXP2850BA

Description

Manufacturer

Intel

Datasheet

1.RPIXP2850BA.pdf (154 pages)

Specifications of RPIXP2850BA

Operating Supply Voltage (typ)

1.3/1.5/2.5/3.3V

Operating Supply Voltage (max)

1.575/2.7/3.465V

Operating Supply Voltage (min)

1.235/2.3/3.135V

Mounting

Surface Mount

Operating Temperature (max)

70C

Operating Temperature (min)

Operating Temperature Classification

Commercial

Lead Free Status / Rohs Status

Not Compliant

Current page: 101 of 154
Download datasheet (4Mb)

MSF (SPI-4/CSIX/FC)

5.1

5.1.1

Hardware Design Guide

Media and Switch Fabric Interface

The Media and Switch Fabric (MSF) Interface connects the Intel

Network Processor to a physical layer device (PHY) and/or a Switch Fabric Interface. The MSF

consists of the following external interfaces:

The MSF supports 16-bit DDR LVDS signaling for the SPI-4 data path channel and can be

configured to support either LVTTL or LVDS (Low-Voltage Differential Signal) signaling for the

SPI-4 FIFO status channel. The MSF supports 16-bit LVDS signaling for CSIX-L1 protocol and

4-bit LVDS signaling for the Flow Control interface.

SPI-4.2

SPI-4.2 is an interface for packet and cell transfer between a physical layer (PHY) device and a link

layer device (network processor) for aggregate bandwidths of OC-192 ATM and Packet over

SONET/SDH (POS), as well as 10 Gbyte/sec Ethernet applications.

The SPI-4.2 protocol transfers data in bursts of variable length. Associated with each burst is

information such as port number (for a multi-port device such as a 10 x 1 GbE), SOP, and EOP.

This information is collected by the MSF and passed to the Microengines.

The following implementations do not require an extra oscillator to provide a clock for the data that

moves between two network processors on the same line card:

The Optical Internetworking Forum (OIF) controls the SPI-4.2 Implementation Agreement

document (available at http://www.oiforum.com).

•

Receive and transmit interfaces, each of which can be individually configured for either the

SPI-4 Phase 2 (System Packet Interface) to a PHY or the CSIX-L1 protocol to a switch fabric.

A Flow Control Interface, which provides a point-to-point connection used primarily to pass

CSIX-L1 flow control C-Frames either between two network processors or between a network

processor and a switch fabric.

The TD_CLK from network processor 1 to network processor 2 can be created by dividing

network processor 1’s internal fast clock. The multiplex that selects between the two possible

sources of TD_CLK is controlled by a bit in the MSF_Tx_Control control status register

(CSR). This option is the more desirable of these implementations.

Optionally, the MAC device creates an RD_CLK to the first network processor, as shown in

Figure

is used as the source of the TD_CLK to network processor 2. Note that this implementation is

provided for documentation completeness; while it is feasible, it is not the more desirable

solution since the accumulated jitter from the source (MAC), PCB, and forwarding must be

accounted. The cumulative effect may result in the clock violating the duty cycle and/or

exceeding the jitter specification of the receiving device.

58. RCLK_REF loops back into TCLK_REF for network processor 1 and TCLK_REF

IXP28XX Network Processor

IXP2800 or Intel

MSF (SPI-4/CSIX/FC)

IXP2850

101

RPIXP2850BA Intel, RPIXP2850BA Datasheet - Page 101

RPIXP2850BA

Specifications of RPIXP2850BA

Related parts for RPIXP2850BA