89hpes16h16 Integrated Device Technology, 89hpes16h16 Datasheet - Page 2

89hpes16h16

Manufacturer Part Number

89hpes16h16

Description

16-lane, 16-port Pcie System Interconnect Switch

Manufacturer

Integrated Device Technology

Datasheet

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Product Description

the most efficient I/O connectivity for applications requiring high

throughput, low latency, and simple board layout with a minimum

number of board layers. It provides 64 Gbps of aggregated, full-duplex

switching capacity through 16 integrated serial lanes, using proven and

robust IDT technology. Each lane provides 2.5 Gbps of bandwidth in

both directions and is fully compliant with PCI Express Base specifica-

tion 1.1.

ture. The PCI Express layer consists of SerDes, Physical, Data Link and

Transaction layers. The PES16H16 can operate either as a store and

forward switch or a cut-through switch and is designed to switch memory

and I/O transactions. It supports eight Traffic Classes (TCs) and two

Virtual Channels (VCs) with sophisticated resource management to

enable efficient switching and I/O connectivity.

SMBus Interface

provides full access to the configuration registers in the PES16H16,

allowing every configuration register in the device to be read or written

by an external agent. The master interface allows the default configura-

tion register values of the PES16H16 to be overridden following a reset

with values programmed in an external serial EEPROM. The master

interface is also used by an external Hot-Plug I/O expander.

consist of an SMBus clock pin, an SMBus data pin, and 4 SMBus

address pins. In the slave interface, these address pins allow the

SMBus address to which the device responds to be configured. In the

master interface, these address pins allow the SMBus address of the

serial configuration EEPROM from which data is loaded to be config-

IDT 89HPES16H16 Data Sheet

Utilizing standard PCI Express interconnect, the PES16H16 provides

The PES16H16 is based on a flexible and efficient layered architec-

The PES16H16 contains two SMBus interfaces. The slave interface

Six pins make up each of the two SMBus interfaces. These pins

◆

Power Management

Testability and Debug Features

Thirty-two General Purpose Input/Output pins

– Supports PCI Express Hot-Plug

– Supports Hot-Swap

– Supports PCI Power Management Interface specification,

– Unused SerDes disabled

– Built in SerDes Pseudo-Random Bit Stream (PRBS) generator

– Ability to read and write any internal register via the SMBus

– Ability to bypass link training and force any link into any mode

– Provides statistics and performance counters

– Each pin may be individually configured as an input or output

– Each pin may be individually configured as an interrupt input

– Some pins have selectable alternate functions

Packaged in a 23mm x 23mm 484-ball Flip Chip BGA with

1mm ball spacing

• Compatible with Hot-Plug I/O expanders used on PC

• Supports powerdown modes at the link level (L0, L0s, L1,

Revision 1.1 (PCI-PM)

motherboards

L2/L3 Ready and L3) and at the device level (D0, D3

*Notice: The information in this document is subject to change without notice

hot

)

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ured. The SMBus address is set up on negation of PERSTN by

sampling the corresponding address pins. When the pins are sampled,

the resulting address is assigned as shown in Table 1.

in a unified or split configuration. In the unified configuration, shown in

Figure 3(a), the master and slave SMBuses are tied together and the

PES16H16 acts both as a SMBus master as well as a SMBus slave on

this bus. This requires that the SMBus master or processor that has

access to PES16H16 registers supports SMBus arbitration. In some

systems, this SMBus master interface may be implemented using

general purpose I/O pins on a processor or micro controller, and may

not support SMBus arbitration. To support these systems, the

PES16H16 may be configured to operate in a split configuration as

shown in Figure 3(b).

two independent buses and thus multi-master arbitration is never

required. The PES16H16 supports reading and writing of the serial

EEPROM on the master SMBus via the slave SMBus, allowing in

system programming of the serial EEPROM.

As shown in Figure 3, the master and slave SMBuses may be used

In the split configuration, the master and slave SMBuses operate as

Bit

Table 1 Master and Slave SMBus Address Assignment

SSMBADDR[1]

SSMBADDR[2]

SSMBADDR[3]

SSMBADDR[5]

Address

SMBus

Slave

MSMBADDR[1]

MSMBADDR[2]

MSMBADDR[3]

MSMBADDR[4]

Address

April 16, 2008

Master

SMBus

89hpes16h16 Integrated Device Technology, 89hpes16h16 Datasheet - Page 2

89hpes16h16

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