MPC8533EVTALFA Freescale Semiconductor, MPC8533EVTALFA Datasheet - Page 320
MPC8533EVTALFA
Manufacturer Part Number
MPC8533EVTALFA
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 MPC8533EVTALFA
Processor Type
MPC85xx PowerQUICC III 32-Bit
Speed
667MHz
Voltage
0.95 V ~ 1.05 V
Mounting Type
Surface Mount
Package / Case
783-BBGA, FCBGA
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Features
-
Available stocks
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Manufacturer
Quantity
Price
Company:
Part Number:
MPC8533EVTALFA
Manufacturer:
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10 000
e500 Coherency Module
in EEBPCR register. Depending how the CPU_RD_HI_DIS field in EEBPCR register is set, read
transactions from the e500 core are initially assigned to either the higher- or lower-bandwidth queue of the
DDR target.
8.3.3
The ECM’s transaction queue performs four basic functions: arbitration across the e500 core and I/O
masters, target mapping and dispatching, enforcement of ordering, and enforcement of coherency. The
address of each transaction is compared against each local access window, and the transaction is then
routed to the appropriate target interface associated with the local access window that the address hits
within. Even though the CCB and ECM allow the pipelining of transactions, the address tenures of all
transactions issued from I/O masters (masters other than the e500 core) may still be ordered. For those
transactions accessing address space marked as snoopable, or space that may be cached by the e500 core,
the ECM enforces coherency, snooping those transactions on the CCB, and taking castouts from the e500
core as is necessary.
8.3.4
Figure 8-1
one 128-bit global data bus. The global data mux allows initiators of write transactions to route data to
their targets and read targets to return data to the initiators.
8.3.5
Figure 8-1
address tenures for the ECM transaction queue. It also contains the queueing and buffering needed to
manage outstanding CCB data tenures. The buffers receive e500 core-initiated write and I/O-initiated read
data (that hit in the L2/SRAM module) from the e500 write (128-bit wide) and read (128-bit wide) data
buses and route them through the global data mux to the global data bus. The buffers also receive e500
core-initiated read and I/O-initiated write data (that hit in the L2/SRAM module) from the global data bus
and forward them onto the CCB data bus (64 bits).
8.4
If the e500 core is used to initialize the MPC853E, the CPU boot configuration power-on reset pin should
be pulled high to initially set EEBPCR[CPU_EN]. See
for more information on power-up reset initialization.
If any device other than the e500 core (such as PCI Express) is used to initialize the MPC8533E, the CPU
boot configuration power-on reset pin should be pulled low to initially clear EEBPCR[CPU_EN]. This
prevents the e500 core from accessing any configuration registers or local memory space during
initialization. However, in any such system, one step near the end of the initialization routine must set
EEBPCR[CPU_EN] to re-enable the e500 core. Note that for basic functionality, EEBPCR[CPU_EN] is
the only field that must be written (provided a device other than the e500 core is used to initialize the
device) in the ECM.
8-10
shows how the global data multiplexor takes data bus connections and multiplexes them onto
shows the CCB interface for both CCB address and data tenures. This interface formats CCB
Initialization/Application Information
Transaction Queue
Global Data Multiplexor
CCB Interface
MPC8533E PowerQUICC III Integrated Host Processor Family Reference Manual, Rev. 1
Chapter 4, “Reset, Clocking, and
Freescale Semiconductor
Initialization,”
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