MPC8533EVTARJ Freescale Semiconductor, MPC8533EVTARJ Datasheet - Page 312

MPC8533EVTARJ

Manufacturer Part Number

MPC8533EVTARJ

Description

MPU POWERQUICC 783-PBGA

Manufacturer

Freescale Semiconductor

Datasheets

1.MPC8533VTALF.pdf (112 pages)

2.MPC8533VTALF.pdf (2 pages)

3.MPC8533VTALF.pdf (16 pages)

4.MPC8533VTALF.pdf (1332 pages)

Specifications of MPC8533EVTARJ

Processor Type

MPC85xx PowerQUICC III 32-Bit

Speed

1.067GHz

Voltage

Mounting Type

Surface Mount

Package / Case

783-FCPBGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Features

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e500 Coherency Module

8.1.1

The ECM routes transactions initiated by the e500 core to the appropriate target interface on the device.

In a manner analogous to a bridging router in a local area network, the ECM forwards I/O-initiated

transactions that are tagged with the global attribute onto the core complex bus (CCB). This allows on-chip

caches to snoop these transactions as if they were locally initiated and to take actions to maintain

coherency across cacheable memory.

8.1.2

The ECM includes these distinctive features:

8-2

•

Support for the e500 core and an L2/SRAM on the CCB, including a CCB arbiter.

It sources a 64-bit data bus for returning read data from the ECM to the e500 core and routing write

data from the ECM to the L2/SRAM. It sinks a 128-bit data bus for receiving data from the

L2/SRAM and a 128-bit write data bus from the e500 core.

Four connection points for I/O initiating (mastering into the device) interfaces. The ECM supports

five connection points for I/O targets. The DDR memory controller, local bus, OCeaN targets, and

configuration register access block all have a target port connection to the ECM.

Split transaction support—separate address and data tenures allow for pipelining of transactions

and out-of-order data tenures between initiators and targets.

Proper ordering of I/O-initiated transactions.

Speculative read bus for low-latency dispatch of reads to the DDR controller.

Low-latency path for returning read data from DDR to the e500 core.

Error registers trap transactions with invalid addresses. Errors can be programmed to generate

interrupts to the e500 core, as described in the following sections:

—

Errors from reading I/O devices (for example a master-aborted read transaction on the PCI

interface) terminate with data sent to the master with a corrupt attribute. If the master is the e500

core, the ECM asserts core_fault_in to the core, which causes the core to generate a machine check

interrupt, unless it is disabled (by clearing HID1[RFXE]). If RFXE is zero and one of these errors

occurs, appropriate interrupts must be enabled to ensure that an interrupt is generated. See

Section 6.10.2, “Hardware Implementation-Dependent Register 1

Section 8.2.1.5, “ECM Error Detect Register (EEDR)”

Section 8.2.1.6, “ECM Error Enable Register (EEER)”

Section 8.2.1.7, “ECM Error Attributes Capture Register (EEATR)”

Section 8.2.1.8, “ECM Error Low Address Capture Register (EELADR)”

Section 8.2.1.9, “ECM Error High Address Capture Register (EEHADR)”

Overview

Features

MPC8533E PowerQUICC III Integrated Host Processor Family Reference Manual, Rev. 1

(HID1).”

Freescale Semiconductor

MPC8533EVTARJ Freescale Semiconductor, MPC8533EVTARJ Datasheet - Page 312

MPC8533EVTARJ

Specifications of MPC8533EVTARJ

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