MPC8533EVTARJ Freescale Semiconductor, MPC8533EVTARJ Datasheet - Page 557

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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12.4.6.9.5

The AESU key registers hold from 16, 24, or 32 bytes of key data, with the first 8 bytes of key data written

to key 1. Any key data written to bytes beyond the value written to the key size register is ignored. The

key data registers are cleared when the AESU is reset or re-initialized. If these registers are modified

during message processing, a context error is generated.

The key data registers may be read when changing context in decrypt mode. To resume processing, the

value read must be written back to the key registers and the restore decrypt key bit must be set in the mode

context.

12.4.6.9.6

The AESU fetches data 128 bits at a time from the input FIFO. During processing, the input data is

encrypted or decrypted with the key and initialization vector (CBC mode only) and the results are placed

in the output FIFO. The output size is the same as the input size.

Writing to the FIFO address space places 64 bits of message data into the input FIFO. The input FIFO may

be written any time the number of dwords currently in the input FIFO (as indicated by the IFL field of the

AESU status register) is less than 32. There is no limit on the total number of bytes in a message. The

number of bits in the final message block must be set in the data size register.

Reading from the FIFO address space will pop 64 bits of message data from the output FIFO. The output

FIFO may be read any time the OFR signal is asserted (as indicated in the AESU status register). This

indicates that the number of bytes in the output FIFO is at or above the threshold specified in the mode

12.4.7

This section contains details about the Kasumi execution unit (KEU), including modes of operation, status

and control registers, and FIFOs. The Kasumi execution unit (KEU) has been designed to support the F8

confidentiality function of the 3GPP, GSM A5/3, EDGE A5/3 and GPRS GEA3 algorithms and also the

3GPP F9 integrity function.

Most of the registers described here would not normally be accessed by the host. They are documented

here mainly for debug purposes. In typical operation, the KEU is used through channel-controlled access,

which means that most reads and writes of KEU registers are directed by the SEC channels. Driver

software performs host-controlled register accesses on only a few registers for initial configuration and

error handling.

Freescale Semiconductor

Kasumi Execution Unit (KEU)

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

For both encrypt and decrypt operations, if the 802.11 frame is being

processed as a whole (not split across multiple descriptors), the initialize

and final MAC bits should be set in the AESU mode register.

AESU Key Registers

AESU FIFOs

NOTE

Security Engine (SEC) 2.1

12-79

MPC8533EVTARJ Freescale Semiconductor, MPC8533EVTARJ Datasheet - Page 557

MPC8533EVTARJ

Specifications of MPC8533EVTARJ

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