Texas Instruments TMS320C6472 Evaluation Module TMDSEVM6472LE TMDSEVM6472LE Datenbogen
Produktcode
TMDSEVM6472LE
PRODUCTPREVIEW
SPRS612G
–
JUNE 2009
–
REVISED JULY 2011
Application Reports:
TMS320C64x to TMS320C64x+ CPU Migration Guide. Describes migrating from the Texas
Instruments TMS320C64x digital signal processor (DSP) to the TMS320C64x+ DSP. The
objective of this document is to indicate differences between the two cores. Functionality in
the devices that is identical is not included.
Instruments TMS320C64x digital signal processor (DSP) to the TMS320C64x+ DSP. The
objective of this document is to indicate differences between the two cores. Functionality in
the devices that is identical is not included.
TMS320C6472/TMS320TCI6486 Hardware Design Guide. This application report describes
system design considerations for the TMS320C6472/TMS320TCI6486 digital signal
processor (DSP).
system design considerations for the TMS320C6472/TMS320TCI6486 digital signal
processor (DSP).
TMS320C6472/TMS320TCI6486
Serial
RapidIO
Implementation
Guidelines.
This
application report contains implementation instructions for the Serial RapidIO (SRIO)
interface on the TMS320C6472/TMS320TCI6486 DSP.
interface on the TMS320C6472/TMS320TCI6486 DSP.
TMS320C6472/TMS320TCI6486 DDR2 Implementation Guidelines. This application report
contains
contains
implementation
instructions
for
the
DDR2
interface
contained
on
the
TMS320C6472/TMS320TCI6486 DSP.
TMS320C6472/TMS320TCI6486 EMAC Implementation Guide. This application report
contains
contains
implementation
instructions
for
the
Ethernet
interface
contained
on
the
TMS320C6472/TMS320TCI6486 DSP.
TMS320C6472/TMS320TCI6486 Power Consumption Summary. This application report
discusses the power consumption of the TMS320C6472/TMS320TCI6486 digital signal
processor (DSP).
discusses the power consumption of the TMS320C6472/TMS320TCI6486 digital signal
processor (DSP).
TMS320C6472/TMS320TCI6486 Throughput. This application report provides designers a
basis for estimating memory access performance based on throughput measurements under
various operating conditions. Some factors affecting memory access performance are
discussed. It also addresses throughput to/from the interfaces to memories of the
C6472/TCI6486 device. This can be used to estimate transport performance of the
C6472/TCI6486 device to facilitate system design.
basis for estimating memory access performance based on throughput measurements under
various operating conditions. Some factors affecting memory access performance are
discussed. It also addresses throughput to/from the interfaces to memories of the
C6472/TCI6486 device. This can be used to estimate transport performance of the
C6472/TCI6486 device to facilitate system design.
Using IBIS Models for Timing Analysis. Describes how to properly use IBIS models to
attain accurate timing analysis for a given system.
attain accurate timing analysis for a given system.
Using Advanced Event Triggering to Find and Fix Intermittent Real-Time Bugs.
Advanced Event Triggering (AET) provides a way to examine the system while it is in
operation, and to trigger conditional events with no overhead. This document describes how
to use these powerful tools to debug a system.
Advanced Event Triggering (AET) provides a way to examine the system while it is in
operation, and to trigger conditional events with no overhead. This document describes how
to use these powerful tools to debug a system.
Using Advanced Event Triggering to Debug Real-Time Problems in High-Speed
Embedded Microprocessor Systems. This application report instructs the user on how to
take advantage of the advanced event triggering (AET) embedded components available on
TI
Embedded Microprocessor Systems. This application report instructs the user on how to
take advantage of the advanced event triggering (AET) embedded components available on
TI
’
s new digital signal processors.
TMS320C6472 BSDL Model.
TNETV3020/TCI6486 Power Reference Design.
Copyright
©
2009
–
2011, Texas Instruments Incorporated
Device Overview
57
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