Broadcom PEX 8664 Silicon Revisions and Errata List User guide

Broadcom
Brand
Broadcom
Model
PEX 8664 Silicon Revisions and Errata List
Type
User guide

Broadcom PEX 8664 Silicon Revisions and Errata List

Below you will find brief product information for the Broadcom PEX 8664 Silicon Revisions and Errata List.

The PEX 8664 is a high-performance PCIe switch designed for use in a variety of applications, including enterprise servers, storage systems, and network appliances. It supports up to 64 lanes of PCIe 3.0 traffic and can be configured in a variety of topologies to meet the specific needs of your system.

The PEX 8664 also includes a number of advanced features, such as:

  • Virtual switch mode: This mode allows the PEX 8664 to be partitioned into multiple virtual switches, each with its own independent configuration and management. This can be useful for isolating different types of traffic or for creating separate management domains.

Broadcom PEX 8664 Silicon Revisions and Errata List

Below you will find brief product information for the Broadcom PEX 8664 Silicon Revisions and Errata List.

The PEX 8664 is a high-performance PCIe switch designed for use in a variety of applications, including enterprise servers, storage systems, and network appliances. It supports up to 64 lanes of PCIe 3.0 traffic and can be configured in a variety of topologies to meet the specific needs of your system.

The PEX 8664 also includes a number of advanced features, such as:

  • Virtual switch mode: This mode allows the PEX 8664 to be partitioned into multiple virtual switches, each with its own independent configuration and management. This can be useful for isolating different types of traffic or for creating separate management domains.
PEX8664
Silicon Revisions and Errata List
CONFIDENTIAL PROPRIETARY INFORMATION
NDA REQUIRED
Version 1.5
May 6, 2013
Website:
www.plxtech.com
Technical Support:
www.plxtech.com/support
Copyright © 2013 by PLX Technology, Inc. All Rights Reserved
PEX 8606
Errata Documentation
Revision 0.30
October 2008
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 2
A. Affected Silicon Revision
This document details Errata for the following silicon:
Product
Revision
Description
Status
PEX 8664
AA
64-Lane; 16-Port PCIe Switch
Conditional Production
B. Device Documentation Version
The following documentation is the baseline functional description of the silicon:
Document
Version
Publication Date
PEX 8664 Data Book
1.0
November 2009
C. Errata Documentation Revision History
Revision
Publication Date
Description
0.1
July 2009
Initial publication of the Errata list
0.2
July 2009
Added Errata 2 and 3
0.3
September 2009
Added Errata 4, 5, and 6
0.4
October 2009
Added Errata 7, 8, 9, 10 and 11
Added Caution Section with items i, ii, iii, iv, v and vi
0.5
December 2009
Added Errata 12
Added clarification to Caution ii
0.6
October 2010
Added Errata E.13
1.2
May 2011
Added Errata 14, 15, and 16
1.3
March 2012
Added Errata 17
Added Caution vii
1.4
March 2012
Added Errata 18
1.5
May 2013
Modified register in workaround #3 for Errata 18 - from
236h[3:0] to 234h[19:16]
Added “and the lanes are not reversed” to caution i
D. Errata Summary
#
Description
Risk
Category
Silicon Rev
Affected
1
Sticky Registers for a Given Virtual Switch, are not Reset with
VS_PERST#
Low
AA
2
Incorrect Value on Register 0xC8 on the NT Virtual Side When NT
P2P Mode is Enabled
Low
AA
3
EEPROM Does Not Load on De-assertion of VS_PERST#
Low
AA
4
Incorrect GPIO control in virtual switch mode
Low
AA
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 3
#
Description
Risk
Category
Silicon Rev
Affected
5
Uninhibited Memory mapped access to Port 0 registers from the
redundant management port
Low
AA
6
Logs for Replay timeout, replay number rollover and DLLP errors are
not logged for the Legacy NT connection
Low
AA
7
NT P2P Bridge Command Register and NT P2P Virtual Endpoint
BAR3 Issue
Low
AA
8
Device Status and Control 2 Register ARI Forwarding Enable bit is
read as “0”
Low
AA
9
NT Port Virtual-to-Link Doorbell MSI Errata
Low
AA
10
Analog Loopback Master Mode PRBS Support
Low
AA
11
Analog Loopback Slave Mode Support
Low
AA
12
SHP_GPIO[42:33] Pins are Input Only When Virtual Switch Mode is
Enabled
Low
AA
13
LTSSM doesn’t transition to Gen1 speed for PLX device specific port
disable condition
Low
AA
14
AC JTAG Functionality Does not Work
Low
AA
15
RAM ECC Error Generates Continuous Error Message
Low
AA
16
Does Not Clear the ECC Error Status Register Properly
Low
AA
17
Memory Read TLPs with Relax Ordering (RO) attribute gets
completion timeout under extreme completion credit starvation
condition
Low
AA
18
Incorrect TCB Capture of Training Sets
Low
AA
E. Caution Summary
#
Description
Risk
Category
Silicon Rev
Affected
I
A link will not come up if receivers are detected on a few lanes that
do not exit Electrical Idle in polling
Low
AA
Ii
The Default Value of the Class Code Register (0x08) in the NT-
Low
AA
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 4
#
Description
Risk
Category
Silicon Rev
Affected
Virtual Port is Incorrect Under Certain Conditions
Iii
The MSI Mask register (0x58h) is implemented according to the
Multiple Message Enable field (0x48h[22:20]) rather than the Multiple
Message Capable field 0x48h[22:20])
Low
AA
Iv
Incorrect Completer ID on ACS Source Validation Error
Low
AA
v
The NT-Link Port MSI Mask and MSI Pending registers (0x58h,
0x5Ch) cannot be disabled EEPROM/I2C
Low
AA
vi
If Serial Hot Plug is implemented with MRL disabled (MRL Present
bit (0x7Ch[2]) is cleared by EEPROM/I2C), after Fundamental Reset
the PEX 8664 Serial Hot Plug controller unconditionally initiates the
slot power-up sequence (by asserting the I/O Expander PWREN,
PWRLED#, CLKEN# outputs and de-asserting I/O Expander
PERST# output)
Low
AA
vii
When Virtual Switch Mode is Enabled, VS_PERST# Does Not
Initialize the Serial Hot-Plug Register
Low
AA
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 5
1. Sticky Registers for a Given Virtual Switch, are not Reset with
VS_PERST#
Risk Category: Low
Silicon Revisions Affected: AA
Description
VS_PERST# pins do not clear advanced error capability sticky registers. All registers in
the advanced error capability are sticky registers
Solution/Workaround
Sofware will need to write to the advanced error capability registers to clear them if
VS_PERST# is given to the device.
Impact
Customers planning to use the Multi-root function of the Switch and use VS_PERST# to
reset the device will need to write to Error handler registers to clear the values after
VS_PERST# is asserted.
2. Incorrect Value on Register 0xC8 on the NT Virtual Side When
NT P2P Mode is Enabled
Risk Category: Low
Silicon Revisions Affected: AA
Description
In the NT P2P mode, the default value on register 0xC8 on the NT virtual side is
incorrect (0001_0009h).
Solution/Workaround
EEPROM can load the correct value of 0038_0009h to register 0xC8. The correct value
can also be loaded using the I
2
C interface.
Impact
When using the NT P2P mode, the default value on register 0xC8 is incorrect.
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 6
3. EEPROM Does Not Load on De-assertion of VS_PERST#
Risk Category: Low
Silicon Revisions Affected: AA
Description
Serial EEPROM load on VS_PERST# deassertion does not work
Solution/Workaround
The EEPROM can be loaded at PEX_PERST# deassertion but not at VS_PERST#
deassertion. The EEPROM can also be loaded using hot reset to the Virtual Switch.
Impact
Serial EEPROM load does not work with VS_PERST#. Because the EEPROM loads
properly for the whole device after PEX_PERST# deasssertion, the EEPROM should
load the Virtual Switch registers after VS_PERST# is deasserted.
4. Incorrect GPIO control in virtual switch mode
Risk Category: Low
Silicon Revisions Affected: AA
Description
When the following conditions are true in the Switch:
Virtual Switch mode is enabled
Three or more virtual switches are configured (VS0, VS1 and VS2)
Three or more GPIOs are assigned to Virtual Switch 2 (VS2)
The direction for the third GPIO is controlled by the second GPIO output enable.
Solution/Workaround
1. Program both the second and third GPIOs to be the same type (either inputs or
outputs)
2. Do not assign more than two GPIOs to VS2. If more than two GPIOs are
required, select a different VS
Impact
The third GPIO assigned to VS2 may not be usable since they are both controlled by
the second GPIO output enable
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 7
5. Uninhibited Memory mapped access to Port 0 registers from the
redundant management port
Risk Category: Low
Silicon Revisions Affected: AA
Description
When Virtual Switch Mode (VS) is enabled, there can be an active (primary)
management port as well as a redundant management port. The primary management
port has access privileges to ALL configuration registers in the device, including
registers for ports in other hierarchies, through memory mapped accesses. The
redundant management port only has access privileges for those ports within its own
VS hierarchy including the management register for upgrading itself to the primary
management port.
However, the switch erroneously provides unrestricted access to the first 4KB of
memory mapped register configuration space (Port 0 CSRs) to the redundant
management port.
Solution/Workaround
1. Include Port 0 as part of the redundant management port hierarchy
2. Unless management port failover is needed, do not enable a redundant
management port
Impact
Unauthorized access to Port 0 CSR space could be enabled to the redundant
management port.
6. Logs for Replay timeout, replay number rollover and DLLP
errors are not logged for the Legacy NT connection
Risk Category: Low
Silicon Revisions Affected: AA
Description
The switch supports the Non-Transparency (NT) function in two modes:
1. Legacy NT
2. NT P2P
When Legacy NT mode is enabled, the following conditions are not logged internally on
the NT Link side:
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 8
Replay timeout
Replay number rollover
DLLP errors
The NT P2P mode is not affected; that is, the NT P2P mode logs the above error
conditions properly.
Solution/Workaround
Monitor the Bad TLP, Bad DLLP and Receiver Error logs instead; these are logged
correctly on the switch.
Impact
Error logs which can assist in monitoring the link stability for the Legacy NT link
connection are not updated. Although DLLP and Link errors rarely occur in a stable link
connection, they can cause Replay timeouts and replay-number rollover in unstable
links which can result in a link retrain.
The error conditions described above are properly logged on the NT Link side when the
NT P2P mode is used.
7. NT P2P Bridge Command Register and NT P2P Virtual Endpoint
BAR3 Issue
Risk Category: Low
Silicon Revisions Affected: AA
Description
When the Non-Transparent function is enabled and NT P2P mode is used, the NT
Virtual endpoint’s BAR 3 Register (0x1Ch) cannot be read when Port 0, 4, 16 or 20 are
made the NT Port. Instead, a read to that register incorrectly returns the value of the
P2P Bridge Secondary Status I/O Base and Limit Register (also mapped as 0x1Ch) in
front of the NT endpoint. Furthermore, writes to the NT endpoint Virtual Command
register (0x04h) are also mirrored to the P2P Bridge Command Register (0x04h).
Solution/Workaround
1. Use the NT Legacy mode instead and do not enable NT P2P mode if using x16
ports an BAR3
2. If not using x16 wide ports, do not use Ports 0, 4, 16 or 20 as the NT port
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 9
Impact
BIOS and/or OS Read requests directed to BAR3 will return incorrect values during
enumeration, which can potentially result in BIOS enumeration issues. A write to the
NT Virtual endpoint’s Command Register (0x04h) results in a write to offset 0x04h of
both the NT Virtual endpoint and it corresponding P2P bridge.
8. Device Status and Control 2 Register ARI Forwarding Enable bit
is read as “0
Risk Category: Low
Silicon Revisions Affected: AA
Description
Device Status and Control 2 Register (0x90[5]) ARI enable bit is software writeable but
it will always read back as 0.
Solution/Workaround
Device Capability 2 Register (0x8C[21]) can be alternatively used to determine if the
ARI is enabled.
Impact
ARI is fully functional, if enabled, the limitation is that the software cannot read the ARI
enable bit to determine if it was successful in setting the bit.
9. NT Port Virtual-to-Link Doorbell MSI Errata
Risk Category: Low
Silicon Revisions Affected: AA
Description
The NT-Link port MSI Mask register bit [2] should be writeable; however, it is not
writeable in the PEX 8664.
If the NT-Link host enables two MSI vectors (by writing value 001b to the Multiple
Message Enable field (0x48h[22:20])), rather than enabling all 4 of the requested
vectors (as defined by the value of the Multiple Message Capable field (0x48h[22:20])),
the MSI Data within the MSI Virtual-to-Link Doorbell packet is incorrect.
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 10
Solution/Workaround
The MSI host must either enable all 4 MSI vectors (one for each interrupt source), or
enable 1 MSI vector for all interrupt sources.
Impact
If the host enables 2 MSI vectors, the NT-Link port side is supposed to modify only the
least significant bit (0) of the MSI Data within the MSI Message TLP. However the PEX
8664 changes the two least significant bits. Therefore MSI TLPs for NT Port Virtual-to-
Link Doorbell interrupts will contain incorrect MSI Data in bits [1] of the payload.
10. Analog Loopback Master Mode PRBS Support
Risk Category: Low
Silicon Revisions Affected: AA
Description
If the PEX8664 is configured to be Analog Loop Back Master then PRBS pattern cannot
be used for checking the data path integrity unless the following bit is set on the
Physical Layer Safety Bits register (0x22C[1]=1).
Solution/Workaround
1. Use UTP pattern in the Analog Loop Back Master Mode
2. If PRBS is to be used, set the following bit is set on the Physical Layer Safety
Bits register (0x22C[1]=1)
Impact
None
11. Analog Loopback Slave Mode Support
Risk Category: Low
Silicon Revisions Affected: AA
Description
Analog Loop Back Slave Mode is non-functional for asynchronous systems. For
synchronous systems, analog loop back slave mode is functional when the following bit
is set on the Physical Layer Safety Bits (0x22C[1]=1).
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 11
Solution/Workaround
1. For Asynchronous systems, use Line Loop Back instead
2. For Synchronous systems, set the following bit is set on the Physical Layer
Safety Bits register (0x22C[1]=1)
Impact
Analog Loop Back Slave Mode cannot be used in Asynchronous Systems
12. SHP_GPIO[42:33] Pins are Input Only When Virtual Switch Mode
is Enabled
Risk Category: Low
Silicon Revisions Affected: AA
Description
The SHP_GPIO[42:33] pins can be programmed as either input or output when the
Switch is configured in Base Mode. However, when the Switch is configured in Virtual
Switch Mode, the SHP_GPIO[42:33] pins can only be used as input pins.
Solution/Workaround
Do not use the SHP_GPIO[42:33] pins as output pins in Virtual Switch Mode. Instead,
use any of the other 33 available GPIO pins as output pins.
Impact
Only 33 GPIO pins can be used as outputs when Virtual Switch Mode is enabled. This
does not affect the functionality of the SHP_PERST# pins.
13. LTSSM doesn’t transition to Gen1 speed for PLX device specific
port disable condition
Risk Category: Low
Silicon Revisions Affected: AA
Description
PLX device specific port disable conditions are
1. Egress credit timeout
2. Fencing mode bringing down the upstream port
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 12
3. NT Link Down condition when transparent domain gets hot-reset (non default
mode)
If a Port is in Gen2 Link up state and any of the above events happens, the link is
brought down immediately by transitioning the port LTSSM from L0 to Detect.Quiet
state without going through the Recovery state. These PLX specific port disable events
don’t hold the LTSSM in Detect.Quiet state long enough for the Speed change from
Gen2 to Gen1 to occur. LTSSM stays in Gen2 speed during Polling state when the link
is re-trained.
Solution/Workaround
1. Program Port CSR offset 224h, bit[11:10] to non-zero value. This holds the
LTSSM in Detect.Quiet state for at least 4ms.
2. The port operates in Gen1 speed.
Impact
The Port doesn’t link-up.
14. AC JTAG Functionality Does not Work
Risk Category: Low
Silicon Revisions Affected: AA
Description
The level output on the RX pins used by the AC JTAG instructions is not stable and
consequently it is not latched by the boundary scan chain. The TX pins does not toggle
at the right cycle in AC JTAG mode.
Solution/Workaround
1. Bring up the links and check the widths using the PEX_PORT_GOOD# pins. The
link width and speed can also be checked using I2C.
2. The external device can put the switch into loopback mode and then check the
integrity of the link. The external device connected to the switch can also be put
in loopback mode using the switch and the link integrity can be checked using
PRBS or other user-programmable test patterns.
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 13
Impact
The RX/TX pins of the switch cannot be used with AC JTAG instructions.
15. RAM ECC Error Generates Continuous Error Message
Risk Category: Low
Silicon Revisions Affected: AA
Description
If the RAM 1-bit ECC error counter overflows and correctable error message signaling is
enabled, the switch generates continuous correctable error messages after the overflow
event. If the RAM detects 2-bit ECC error and uncorrectable error message signaling is
enabled, the switch generates continuous uncorrectable error messages if the error
detection happens in downstream station(s).
Solution/Workaround
1. Use interrupt signaling for RMA ECC error detection.
Impact
Unwanted error message signaling
16. Does Not Clear the ECC Error Status Register Properly
Risk Category: Low
Silicon Revisions Affected: AA
Description
The switch should clear the ECC error status register as defined in the datasheet.
Writing 1 to a bit position should clear the corresponding error status bit. A design bug
clears unrelated ECC error status bit in the same register offset and does not clear the
intended ECC error status bit.
Solution/Workaround
1. Use the following table to clear the intended ECC error status bit. The first
column shows the bit which is written 1 into, the second column shows which bit
in the register is actually cleared.
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 14
700h
WrOneClearBit
PLX Error Status Register 1
[1]
2
Debug triggered interrupt assertion
[2]
0
Station0 Packet Link List RAM soft error counter overflow detected
[3]
1
Station1 Packet Link List RAM soft error counter overflow detected
[4]
2
Station2 Packet Link List RAM soft error counter overflow detected
[5]
2
Station3 Packet Link List RAM soft error counter overflow detected
[6]
2
Station4 Packet Link List RAM soft error counter overflow detected
[7]
2
Station5 Packet Link List RAM soft error counter overflow detected
[8]
24
Station0 Header RAM soft error counter overflow detected
[9]
25
Station1 Header RAM soft error counter overflow detected
[10]
26
Station2 Header RAM soft error counter overflow detected
[11]
26
Station3 Header RAM soft error counter overflow detected
[12]
26
Station4 Header RAM soft error counter overflow detected
[13]
26
Station5 Header RAM soft error counter overflow detected
[14]
6
Destination Queue link list ram soft error counter overflow detected
[15]
8
Source Queue link list ram soft error error counter overflow detected
[16]
10
Retry buffer soft error counter overflow detected
[17]
6
TIC link list RAM soft error counter overflow detected
[18]
18
Source Queue link list ram2 soft error error counter overflow detected
[19]
19
Destination Queue Data ram soft error counter overflow detected
708h
WrOneClearBit
PLX Error Status Register 2
[2]
3
Station0 Packet Link List RAM 2-bit ecc error detected
[3]
4
Station1 Packet Link List RAM 2-bit ecc error detected
[4]
5
Station2 Packet Link List RAM 2-bit ecc error detected
[5]
5
Station3 Packet Link List RAM 2-bit ecc error detected
[6]
5
Station4 Packet Link List RAM 2-bit ecc error detected
[7]
5
Station5 Packet Link List RAM 2-bit ecc error detected
[8]
20
Station0 Header RAM 2-bit ecc error detected
[9]
21
Station1 Header RAM 2-bit ecc error detected
[10]
22
Station2 Header RAM 2-bit ecc error detected
[11]
22
Station3 Header RAM 2-bit ecc error detected
[12]
22
Station4 Header RAM 2-bit ecc error detected
[13]
22
Station5 Header RAM 2-bit ecc error detected
[14]
4
Destination Queue link list ram 2-bit ecc error detected
[15]
9
Source Queue link list ram 2-bit ecc error detected
[16]
11
Retry buffer 2-bit ecc error detected
[17]
7
TIC link list RAM 2-bit ecc error detected
[18]
18
Source Queue link list ram2 2-bit ecc error detected
[19]
19
Destination Queue Data ram 2-bit ecc error detected
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 15
710h
WrOneClearBit
PLX Error Status Register 3
[0]
8
Station0 Packet RAM0 Instance0 soft error counter overflow detected
[1]
9
Station1 Packet RAM0 Instance0 soft error counter overflow detected
[2]
10
Station2 Packet RAM0 Instance0 soft error counter overflow detected
[3]
10
Station3 Packet RAM0 Instance0 soft error counter overflow detected
[4]
10
Station4 Packet RAM0 Instance0 soft error counter overflow detected
[5]
10
Station5 Packet RAM0 Instance0 soft error counter overflow detected
[12]
20
Station0 Packet RAM1 Instance0 soft error counter overflow detected
[13]
21
Station1 Packet RAM1 Instance0 soft error counter overflow detected
[14]
22
Station2 Packet RAM1 Instance0 soft error counter overflow detected
[15]
22
Station3 Packet RAM1 Instance0 soft error counter overflow detected
[16]
22
Station4 Packet RAM1 Instance0 soft error counter overflow detected
[17]
22
Station5 Packet RAM1 Instance0 soft error counter overflow detected
718h
WrOneClearBit
PLX Error Status Regiter 4
[0]
14
Station0 Packet RAM0 Instance0 2-bit ecc error detected
[1]
15
Station1 Packet RAM0 Instance0 2-bit ecc error detected
[2]
16
Station2 Packet RAM0 Instance0 2-bit ecc error detected
[3]
16
Station3 Packet RAM0 Instance0 2-bit ecc error detected
[4]
16
Station4 Packet RAM0 Instance0 2-bit ecc error detected
[5]
16
Station5 Packet RAM0 Instance0 2-bit ecc error detected
[12]
26
Station0 Packet RAM1 Instance0 2-bit ecc error detected
[13]
27
Station1 Packet RAM1 Instance0 2-bit ecc error detected
[14]
28
Station2 Packet RAM1 Instance0 2-bit ecc error detected
[15]
28
Station3 Packet RAM1 Instance0 2-bit ecc error detected
[16]
28
Station4 Packet RAM1 Instance0 2-bit ecc error detected
[17]
28
Station5 Packet RAM1 Instance0 2-bit ecc error detected
Impact
Software writes to clear a status clears unexpected ECC error status and does not clear
the intended ECC error status bit.
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 16
17. Memory Read TLPs with Relax Ordering (RO) attribute gets
completion timeout under extreme completion credit starvation
condition
Risk Category: Low
Silicon Revisions Affected: AA
Description
Completion without RO can block Completion with RO in a corner case scenario.
Errata is not applicable in the following conditions:
1. If a switch port is ‘only’ transmitting RO completions or ‘only’ transmitting non-
RO completions
2. Devices connected to switch advertise infinite credits for completions (Usually
the case for End Points and Root Complex)
The Memory read TLP with RO gets completion timeout if the switch destination port
hits all the following conditions.
1. Switch destination port gets both completion with RO and without RO TLPs
2. The device on the other end of the link advertises non-infinite completion
credit (It is not an endpoint)
3. Completion credit is throttled to the extreme (one completion TLP progress
every few micro seconds)
Solution/Workaround
1. Disable “Completion special handling for RO by programming the register in
the first port of each station, offset 760h Bit[29] to 1’b1
Impact
Completion timeout for Memory Read TLP with RO
18. Incorrect TCB Capture of Training Sets
Risk Category: Low
Silicon Revisions Affected: AA
Description
In the case where excess noise exists on a link, the combination of a “COM” symbol
followed by noise can result in the incorrect misinterpretation of Ordered Sets. The
misinterpretation of said sequence might cause the LTSSM to remain in Loopback
State, Compliance State or other improper states until an assertion of a Hot Reset or a
Fundamental Reset is detected.
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 17
Solution/Workaround
There are 3 possible workarounds for this erratum:
1. Assert a Hot Reset or Fundamental Reset to the device.
2. Disable TCB capturing by setting register 228h[5], 22Ch[23:20]. There are totally 5
bits in TCB field, they can put the LTSSM into Loopback, Compliance, Disable, Hot
Reset, and Disable Scrambling. Register 228h[5] controls Compliance, Register
22Ch[23] controls Disable Scrambling. Register 22Ch[22] controls Loopback.
Register 22C[21] controls Link Disable and register 22Ch[20] controls Hot Reset.
3. Disable and then enable the failing port using register 234h[19:16]
Impact
The link might fail to achieve link-up status.
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 18
i. A link will not come up if receivers are detected on a few lanes
that do not exit Electrical Idle in polling
Risk Category: Low
Silicon Revisions Affected: AA
Description
If unused lanes of a multilane link are terminated, the link will not come up. If a
PEX8664 detects a receiver on some lanes but these lanes do not detect an exit from
electrical idle in the Polling State, the link is supposed to negotiate out these non
functioning lanes and still link up to a reduced link width. In case of PEX8664, the link
will not come up. The inability of the PEX8664 to negotiate out these terminated but
unused lanes is limited to LTSSM Polling State only. If lanes are found be terminated in
Configuration or Recovery State, PEX8664 will negotiate out these lanes and will link up
successfully to a reduced link width.
Solution/Workaround
1. Do not terminate unused lanes.
2. Use the “Never Detect Electrical Idle” bit if unused lanes are terminated
and the lanes are not reversed.
Impact
Failure to link up in case of terminated unused lanes.
ii. The Default Value of the Class Code Register (0x08) in the NT-
Virtual Port is Incorrect Under Certain Conditions
Risk Category: Low
Silicon Revisions Affected: AA
Description
If NT Mode is disabled by STRAP_NT_EN# =1 and then enabled by EEPROM/I
2
C, or,
in Legacy NT mode if the NT Port Number is to be changed by the EEPPROM/I2C from
the value of STRAP_NT_PORTSEL[4:0], then the default valut of the Class Code
Register (0x08) in the NT-Virtual Port is incorrect as follows:
1. If STRAP_NT_ENABLE# is high (NT disabled) but is overwritten to enable NT
Mode by EEPROM/I
2
C setting the VS0 NT Enable bit (Port 0 offset 0x360h[13]),
then the NT-Virtual Class Code (offset 0x3E008h) value is, incorrectly, 060400h
whereas it should be 068000h.
2. For Legacy NT mode, if EEPROM/I2C changes the NT Port number (in Port 0
offset 0x360h[12:8]) from the value set by
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 19
STRAP_NT_UPSTRM_PORTSEL[4:0], then the NT-Virtual Class Code (offset
0x3E008h) value is, incorrectly, 060400h whereas it should be 068000h.
Solution/Workaround
1. If NT mode is disabled by STRAP_NT_ENABLE# = 1 and EEPROM/I
2
C enables
NT mode by setting the VS0 NT Enable bit (Port 0 offset 0x360h[13), then prior
to programming the VS Upstream Register (Port 0 offset 0x360h), EEPROM/I
2
C
must first load the NT Virtual Class Code register (3E008h) with the correct value
of 0x68000h.
2. In Legacy NT Mode, if EEPROM/I
2
C changes the NT Port number (in Port 0
offset 0x360h[12:8]) from the value set by
STRAP_NT_UPSTRM_PORTSEL[4:0], then prior to changing the NT Port
number, EEPROM/I
2
C must first program:
a. The Class Code of the Port selected by
STRAP_NT_UPSTRM_PORTSEL[4:0] to value 060400AAh (PCI-to-PCI
Bridge), and,
b. The Class Code of the NT-Virtual port (offset 0x3E008h) to value
0x068000AAh (Other Bridge).
Impact
BIOS enumeration issues are possible.
iii. The MSI Mask register (0x58h) is implemented according to the
Multiple Message Enable field (0x48h[22:20]) rather than the
Multiple Message Capable field 0x48h[22:20])
Risk Category: Low
Silicon Revisions Affected: AA
Description
The MSI Mask register (0x58h) should be implemented according to the number of MSI
Messages that are implemented (as defined by the value of the Multiple Message
Capable field (0x48h[22:20])), however it is implemented according to the number of
MSI vectors that the host enables (in the Multiple Message Capable field
(0x48h[22:20])).
In the PEX 8664, if the host allocates fewer than the requested number of MSI vectors,
the most significant bits of the MSI Mask register that correspond to unallocated vectors
are not writable and those bit values are Set (masked).
Solution/Workaround
All MSI vectors will need to be enabled by the host, to avoid seeing this issue.
PEX 8664 Errata v1.5
© 2013 by PLX Technology, Inc. All rights reserved. 20
Impact
Low impact, no impact to normal functionality. Normally software doesn’t write to
disabled MSI mask register.
iv. Incorrect Completer ID on ACS Source Validation Error
Risk Category: Low
Silicon Revisions Affected: AA
Description
If a downstream Port detects an ACS source validation Error on a Memory Read that is
directed upstream, the downstream Port is to return a Completion having status of CA
(Cpl Abort) with the Completer ID of the Downstream port. Instead, PEX8664 returns
the CA (Cpl Abort) status but with the Completer ID of the Upstream port.
Solution/Workaround
Monitor the Secondary Status Register Signal Target Abort bit (0x1Ch[27]) and/or
Uncorrectable Error Status Register ACS violation (0xFB8h[21])
Impact
Incorrect Completer ID for Memory Read ACS source validation error
v. The NT-Link Port MSI Mask and MSI Pending registers (0x58h,
0x5Ch) cannot be disabled EEPROM/I2C
Risk Category: Low
Silicon Revisions Affected: AA
Description
If the NT-Link Port MSI Per-Vector Mask Capable bit (0x48h[24]) is cleared by
EEPROM/I2C, the MSI Mask and MSI Pending registers should be implemented as
Reserved; they are not.
Solution/Workaround
Do not disable NT-Link port MSI Per-Vector Mask capability
Impact
If a customer wants to disable MSI Per Vector Masking on the NT-Link Port, the MSI
Mask and MSI Pending registers will not be disabled.
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Broadcom PEX 8664 Silicon Revisions and Errata List User guide

Broadcom
Brand
Broadcom
Model
PEX 8664 Silicon Revisions and Errata List
Type
User guide

Broadcom PEX 8664 Silicon Revisions and Errata List

Below you will find brief product information for the Broadcom PEX 8664 Silicon Revisions and Errata List.

The PEX 8664 is a high-performance PCIe switch designed for use in a variety of applications, including enterprise servers, storage systems, and network appliances. It supports up to 64 lanes of PCIe 3.0 traffic and can be configured in a variety of topologies to meet the specific needs of your system.

The PEX 8664 also includes a number of advanced features, such as:

  • Virtual switch mode: This mode allows the PEX 8664 to be partitioned into multiple virtual switches, each with its own independent configuration and management. This can be useful for isolating different types of traffic or for creating separate management domains.
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