MPU
Slave Ports (From L3 Interconnect)
ELLA
TILER1
PAT
TILER2
LISA
ROBIN1
PEG
ROBIN2
Master Port
(to EMIF1 SDRAM Controller)
Master Port
(to EMIF2 SDRAM Controller)
Preliminary
www.ti.com
Introduction
2.1.2 Features
•
Special low latency interconnect port. ELLA, only for Cortex™-A8 accesses.
•
Ability to interleave the DDR data between two EMIF banks, using the programmable multi-zone
DRAM memory mapping . This increases the memory throughput by a factor of 2. Up-to four unique
memory sections supported.
•
Programmable Initiator based request priority extension, for up to 16 Initiator groups.
•
Support for address translations of tiled data, on a 4KB page granularity using the PAT. This helps
manage memory fragmentation.
•
Two internal address lookup tables (LUT), each with 256x128 entries. Four refill engines to program
the LUTs, with automatic synchronized reload.
•
Supports up to 4 unique PAT views.
2.1.3 Functional Block Diagram
shows the DMM macro architecture. The DMM consists of six blocks:
•
A Priority Extension Generator (PEG) to generate priorities required by the SDRAM controller, note
that these priorities are not used in the DMM
•
One Extra Low Latency Access (ELLA), having its own interconnect slave port, for providing lower
latency accesses to the memory
•
A Local Interconnect and Synchronization Agent (LISA) to synchronize all DMM subsystems and
provide access to their configuration registers
•
A Physical Address Translator (PAT) for managing the memory fragmentation
•
Two Re-Ordering Buffer and Initiator Nodes (ROBIN), having each their own interconnect master port,
to initiate requests to the SDRAM controller and allow tiled data, tiled response and split response
reconstruction. The ROBIN block is only managing the re-ordering buffer and performing the data
re-ordering due to the orientation.
•
Two Tiling and Isometric Lightweight Engine for Rotation (TILER), having each their own interconnect
slave port, for converting requests to-and-fro between the input virtual addressing mode and the output
physical tiled addressing mode. Note that, the tiling conversions of requests, write data and responses
is fully performed in the TILER blocks.
Figure 2-2. DMM Block Diagram
333
SPRUGX9 – 15 April 2011
DMM/TILER
© 2011, Texas Instruments Incorporated
Содержание TMS320C6A816 Series
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