MPC8536DS Freescale Semiconductor, MPC8536DS Datasheet - Page 498

MPC8536DS

Manufacturer Part Number

MPC8536DS

Description

BOARD DEV SYSTEM MPC8536E

Manufacturer

Freescale Semiconductor

Series

PowerQUICC III™r

Type

MPUr

Datasheets

1.MPC8536EBVTAVLA.pdf (127 pages)

2.MPC8536EBVTAVLA.pdf (1706 pages)

3.MPC8536DS.pdf (2 pages)

4.MPC8536DS.pdf (126 pages)

Specifications of MPC8536DS

Contents

Board, Software and Documentation

Processor Series

MPC85xx

Core

e500

Data Bus Width

32 bit

Maximum Clock Frequency

667 MHz

Operating Supply Voltage

- 0.3 V to + 1.21 V

Maximum Operating Temperature

+ 105 C

Data Ram Size

32 KB

Interface Type

SPI, USB

Program Memory Type

DDR2, DDR3, SDRAM

Core Size

32 Bit

Program Memory Size

544KB

Cpu Speed

1.5GHz

Digital Ic Case Style

BGA

No. Of Pins

783

Supply Voltage Range

0.95V To 1.05V

Rohs Compliant

Yes

For Use With/related Products

MPC8536

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Security Engine (SEC) 3.0

10.7.1.10 AESU End of Message Register

The AESU end of message register, shown in

message block has been written to the input FIFO (in channel-driven access, this signaling is done

automatically). The AESU will not process the last block of data in its input FIFO until this register is

written. Once the end of message register is written, the AESU processes any remaining data in the input

FIFO and generates the done interrupt.

The value written to this register does not matter: ordinarily, zero is written. A read of this register always

returns a zero value.

10.7.1.11 AESU Context Registers

There are twelve 64-bit context data registers that allow the host to read/write the contents of the context

used to process a message. The context must be written prior to the key data. If the context registers are

written during message processing, a context error is generated. All context registers are cleared when an

initialization or a hard or soft reset is performed.

If a message is processed through the AESU in two separate operations (that is, using two descriptors),

then the context must be read from the SEC at the end of the first operation and then restored at the

beginning of the second operation.

Context is always read and restored as a contiguous subset of the twelve context registers ending with the

highest numbered register used in that cipher mode. For example, when restoring context in CTR cipher

mode (which uses context registers 5–7, as shown in

(where registers 1–4 must be filled with zeros).

Context register assignments for cipher modes for confidentiality, data integrity, and combined

confidentiality and integrity are described in the following subsections.

10.7.1.11.1 Context for Confidentiality Cipher Modes

The context registers for the different cipher modes which provide confidentiality only are summarized in

Table

10-68

Offset 0x3_4050

Reset

10-29. The registers are described in more detail in the following subsections.

MPC8536E PowerQUICC III Integrated Processor Reference Manual, Rev. 1

Figure 10-29. AESU End of Message Register

Figure

AESU End of Message

All zeros

10-29, is used to signal to the AESU that the final

Table

10-29), context registers 1–7 must be written

Freescale Semiconductor

Access:Write only

MPC8536DS Freescale Semiconductor, MPC8536DS Datasheet - Page 498

MPC8536DS

Specifications of MPC8536DS

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