HD6417706F133 Renesas Electronics America, HD6417706F133 Datasheet - Page 116

HD6417706F133

Manufacturer Part Number

HD6417706F133

Description

IC SUPERH MPU ROMLESS 176LQFP

Manufacturer

Renesas Electronics America

Series

SuperH® SH7700r

Datasheet

1.HD6417706F133V.pdf (751 pages)

Specifications of HD6417706F133

Core Processor

SH-3

Core Size

32-Bit

Speed

133MHz

Connectivity

EBI/EMI, FIFO, SCI, SmartCard

Peripherals

DMA, POR, WDT

Number Of I /o

103

Program Memory Type

ROMless

Ram Size

16K x 8

Voltage - Supply (vcc/vdd)

1.75 V ~ 2.05 V

Oscillator Type

Internal

Operating Temperature

-20°C ~ 75°C

Package / Case

176-LQFP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Eeprom Size

Program Memory Size

Data Converters

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Section 3 Memory Management Unit (MMU)

3.4

3.4.1

There are two kinds of MMU hardware management as follows:

1. The MMU decodes the virtual address accessed by a process and performs address translation

2. In address translation, the MMU receives page management information from the TLB, and

3.4.2

There are three kinds of MMU software management, as follows.

1. MMU register setting. MMUCR setting, in particular, should be performed in areas P1 and P2

2. TLB entry recording, deletion, and reading. TLB entry recording can be done in two ways by

3. MMU exception processing. When an MMU exception is generated, it is handled on the basis

When single virtual memory mode is used, it is possible to create a state in which physical

memory access is enabled in the privileged mode only by clearing the share status bit (SH) to 0 to

specify recording of all TLB entries. This strengthens inter-process memory protection, and

enables special access levels to be created in the privileged mode only.

Recording a 1-kbyte page TLB entry may result in a synonym problem. See section 3.4.4,

Avoiding Synonym Problems.

Rev. 5.00 May 29, 2006 page 66 of 698

REJ09B0146-0500

by controlling the TLB in accordance with the MMUCR settings.

determines the MMU exception and whether the cache is to be accessed (using the C bit). For

details of the determination method and the hardware processing, see section 3.5, MMU

Exceptions.

for which address translation is not performed. Also, since SV and IX bit changes constitute

address translation system changes, in this case, TLB flushing should be performed by

simultaneously writing 1 to the TF bit also. Since MMU exceptions are not generated in the

MMU disabled state with the AT bit cleared to 0, use in the disabled state must be avoided

with software that does not use the MMU.

using the LDTLB instruction, or by writing directly to the memory-mapped TLB. For TLB

entry deletion and reading, the memory allocation TLB can be accessed. See section 3.4.3,

MMU Instruction (LDTLB), for details of the LDTLB instruction, and section 3.6,

Configuration of the Memory-Mapped TLB, for details of the memory-mapped TLB.

of information set from the hardware side. See section 3.5, MMU Exceptions, for details.

MMU Functions

MMU Hardware Management

MMU Software Management

HD6417706F133 Renesas Electronics America, HD6417706F133 Datasheet - Page 116

HD6417706F133

Specifications of HD6417706F133

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