gwixp465bad ETC-unknow, gwixp465bad Datasheet - Page 20
gwixp465bad
Manufacturer Part Number
gwixp465bad
Description
Network Proc 1.3v/1.4v/2.5v/3.3v 400mhz 544-pin Bga
Manufacturer
ETC-unknow
Datasheet
1.GWIXP465BAD.pdf
(148 pages)
3.1.2.1
3.1.2.2
Intel
Datasheet
20
®
IXP45X and Intel
Arbitration on the South AHB are round-robin. Each transaction can be no longer than
an eight-word burst. This implementation promotes fairness within the system.
North AHB
The North AHB is a 133.32-MHz (which is 4 * OSC_IN input pin), 32-bit bus that can be
mastered by the NPE A, NPE B, or NPE C. The targets of the North AHB can be the DDRI
SDRAM or the AHB/AHB bridge. The AHB/AHB bridge allows the NPEs to access the
peripherals and internal targets on the South AHB.
Data transfers by the NPEs on the North AHB to the South AHB are targeted
predominately to the queue manager. Transfers to the AHB/AHB bridge may be
“posted” — when writing — or “split” — when reading.
When a transaction is “posted,” a master on the North AHB requests a write to a
peripheral on the South AHB. If the AHB/AHB Bridge has a free FIFO location, the write
request will be transferred from the master on the North AHB to the AHB/AHB bridge.
The AHB/AHB bridge will complete the write on the South AHB, when it can obtain
access to the peripheral on the South AHB. The North AHB is released to complete
another transaction.
When a transaction is “split,” a master on the North AHB requests a read of a peripheral
on the South AHB. If the AHB/AHB bridge has a free FIFO location, the read request will
be transferred from the master on the North AHB to the AHB/AHB bridge. The AHB/AHB
bridge will complete the read on the South AHB, when it can obtain access to the
peripheral on the South AHB.
Once the AHB/AHB bridge has obtained the read information from the peripheral on the
South AHB, the AHB/AHB bridge notifies the arbiter, on the North AHB, that the AHB/
AHB bridge has the data for the master that requested the “split” transfer. The master
on the North AHB — that requested the split transfer — will arbitrate for the North AHB
and transfer the read data from the AHB/AHB bridge. The North AHB is released to
complete another transaction while the North AHB master — that requested the “split”
transfer — waits for the data to arrive.
These “posting” and “splitting” transfers allow control of the North AHB to be given to
another master on the North AHB — enabling the North AHB to achieve maximum
efficiency. Transfers to the AHB/AHB bridge are considered to be small and infrequent,
relative to the traffic passed between the NPEs and the DDRI SDRAM on the North AHB.
When multiple masters arbitrate for the North AHB, the masters are awarded access to
the bus in a round-robin fashion. Each transaction can be no longer than an eight-word
burst. This implementation promotes fairness within the system.
South AHB
The South AHB is a 133.32-MHz (which is 4 * OSC_IN input pin), 32-bit bus that can be
mastered by the Intel XScale
Host Controller, and the AHB/AHB bridge. The targets of the South AHB Bus can be the
DDRI SDRAM, PCI Controller, Queue Manager, Expansion Bus, or the AHB/APB bridge.
As a special case, the Intel XScale
Cryptography Unit (target).
Accesses across the APB/AHB bridge allows interfacing to peripherals attached to the
APB. The Expansion bus and PCI controller can be configured to support split transfers.
®
IXP46X Product Line of Network Processors
Intel
®
IXP45X and Intel
®
processor, PCI controller, Expansion Bus Interface, USB
®
Processor is the only master which can access the
®
IXP46X Product Line of Network Processors—Datasheet
Document Number:
306261-004US
August 2006
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