AMD Time Clock K User Manual

Preliminary Information  
AMD Athlon™ Processor Model 4  
Revision Guide  
Publication # 23614  
Rev: K  
Issue Date: October 2003  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
Revision History  
Date  
Rev  
Description  
October 2003  
June 2003  
K
J
Revised erratum #24.  
Added erratum #24.  
Added errata #21–23.  
Added erratum #20.  
Added erratum #17.  
December 2002  
July 2002  
I
H
G
March 2002  
Removed OPN information. Added errata items 13, 14, 15, 16. Added information on silicon  
revision A9.  
April 2001  
F
3
Download from Www.Somanuals.com. All Manuals Search And Download.  
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
AMD Athlon™ Processor Model 4  
Revision Guide  
The purpose of the AMD Athlon™ Processor Model 4 Revision Guide is to communicate updated product  
information on the AMD Athlon™ processor model 4 to designers of computer systems and software  
developers. This guide consists of three sections:  
Product Errata: This section, which starts on page 5, provides a detailed description of product  
errata, including potential effects on system operation and suggested workarounds. An erratum is  
defined as a deviation from the product’s specification. A product errata may cause the behavior of  
the AMD Athlon™ Processor Model 4 to deviate from published specifications.  
Revision Determination: This section, which starts on page 20, shows the AMD Athlon processor  
model 4 identification numbers returned by the CPUID instruction for each revision of the  
processor.  
Technical and Documentation Support: This section, which starts on page 21, provides a listing of  
available technical support resources. It also lists corrections, modifications, and clarifications to  
listed documents. Please refer to the data sheets listed in this section for product marking  
information.  
Revision Guide Policy  
Occasionally AMD identifies deviations from or changes to the specification of the AMD Athlon  
processor model 4. These changes are documented in the AMD Athlon™ Processor Model 4 Revision  
Guide as errata. Descriptions are written to assist system and software designers in using the AMD  
Athlon processor model 4 and corrections to AMD’s documentation on the AMD Athlon processor  
model 4 are included. This release documents currently characterized product errata, but is not  
intended to identify all errata in the processor.  
4
Download from Www.Somanuals.com. All Manuals Search And Download.  
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
1
Product Errata  
This section documents AMD Athlon processor model 4 product errata. The errata are divided into  
categories to assist referencing particular errata. A unique tracking number for each erratum has been  
assigned within this document for user convenience in tracking the errata within specific revision  
levels. Table 1 cross-references the revisions of the processor to each erratum. An “X” indicates that  
the erratum applies to the stepping. The absence of an “X” indicates that the erratum does not apply  
to the stepping. Shading within the table indicates an addition or modification from the previous  
release of this document.  
Note: There can be missing errata numbers. Errata that have been resolved from early revisions of the  
processor have been deleted, and errata that have been reconsidered may have been deleted or  
renumbered.  
Table 1.  
Cross-Reference of Product Revision to Errata  
Revision Numbers  
Errata Numbers and Description  
A4 A5 A6 A7 A9  
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
5
Download from Www.Somanuals.com. All Manuals Search And Download.  
   
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
5
MCA Bus Unit Control Register MSR 408H Returns Incorrect Information  
Products Affected. A4, A5, A6, A7, A9  
Normal Specified Operation. System reads to MSR 408h, MCA Bus Unit Control Register MC2_CTL, should  
return correct information—the lower 32 bits in EAX and all zeros for the upper 32 bits in EDX.  
Non-conformance. A read to the Machine Check Architecture (MCA) Bus Unit Control MSR 408h  
(MC2_CTL) returns incorrect information in EDX. It returns the information stored in the upper 32  
bits of the BU Status MSR 409h (MC2_STATUS) instead.  
Potential Effect on System. If the system reads this MCA control register, the upper 32 bits, which are  
reported in EDX, can contain unexpected data.  
Suggested Workaround. This register is only implemented as a 32-bit register. Ignore the upper 32 bits  
which are reported in EDX.  
Resolution Status. No fix planned.  
6
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
10  
Resistance Value of the ZN and ZP Pins  
Products Affected. A4, A5  
Normal Specified Operation. The ZN and ZP pins are specified such that the AMD system bus output  
drivers autocompensate to whatever resistance value is applied between ZN and VDD and ZP and  
VSS.  
Non-conformance. The AMD system bus driver impedance is approximately 20 ohms higher than the  
applied resistor value.  
Potential Effect on System. The AMD Athlon system bus signal quality for signals driven to the  
Northbridge may be adversely affected.  
Suggested Workaround. All motherboards should have ZN/ZP resistors set to approximately 20 ohms less  
than the characteristic board impedance.  
Resolution Status. Fix planned for a future revision.  
Note: When future revisions of the processor are used with motherboards implementing the workaround,  
the expected output impedance of the driver will continue to yield good signal quality. (For example,  
with a motherboard setting of 40 ohms for ZN and ZP, an old part that drives with a 60-ohm driver  
works properly. A revised part with a true 40-ohm driver also works properly.)  
7
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
11  
PLL Overshoot on Wake-Up from Disconnect Causes Auto-Compensation Circuit to Fail  
Products Affected. A4, A5, A6, A7, A9  
Normal Specified Operation. The AMD Athlon processor model 4 PLL should return to the normal  
operating frequency when reconnecting to the system bus after a disconnect where the PLL was  
reduced to a lower operating frequency.  
Non-conformance. The AMD Athlon processor model 4 PLL can exceed the normal operating frequency  
when reconnecting to the system bus after a disconnect, causing a failure to maintain sufficient system  
bus I/O drive strength levels in the driver compensation circuit. The compensation circuit attempts to  
correct the drive strength, but if there is not sufficient time to perform this function, the system bus  
cannot operate properly.  
Potential Effect on System. The system hangs.  
Suggested Workaround. The event can be avoided through BIOS manipulation of the reconnect timing  
using the CLK_CTRL MSR. (See AMD Athlon™ and AMD Duron™ Processor CLK_CTRL MSR Settings,  
order# 24478, for exact values.)  
The time for the PLL to overshoot can be greatly shortened to reduce it to a very small time period that  
does not enable the failure, and the time between the rampup and the reconnect to the system bus can  
be increased such that a failure in the compensation circuit has enough time to recover before  
reconnecting to the bus.  
Resolution Status. Fix planned for a future revision.  
8
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
13  
Instruction Execution Deadlock  
Products Affected. A4, A5, A6, A7  
Normal Specified Operation. Legitimate instruction sequences should execute as specified.  
Non-conformance. Under rare and unlikely conditions, the load-store unit, instruction scheduler and  
effective address generation unit interact in such a way that deadlock a occurs, preventing further  
instruction execution.  
Potential Effect on System. The system hangs. No instructions complete and the processor will not respond  
to interrupts.  
Suggested Workaround. None.  
Resolution Status. Fix planned for a future revision.  
9
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
14  
Processors with Half-Frequency Multipliers May Hang Upon Wake-up from Disconnect  
Products Affected. A4, A5, A6, A7, A9  
Normal Specified Operation. The processor should reconnect to the system bus upon wake-up after a  
disconnect while in the C2 and C3 ACPI low-power states.  
Non-conformance. The processor uses a special circuit to wake up from a low-power state and reconnect  
to the system bus when the nominal operating frequency is generated with a half-frequency multiplier.  
This circuit is rarely observed to glitch when coming out of the C2 and C3 low-power states.  
Potential Effect on System. The system will hang.  
Suggested Workaround. Do not use the C2 or C3 ACPI states on processors that run at a nominal operating  
frequency generated with a half-frequency multiplier. This can be accomplished by having the BIOS  
not declare C2 or C3 support to the operating system in the Fixed ACPI Description Table (FADT).  
Resolution Status. Fix planned for a future revision.  
10  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
15  
Processor Does Not Support Reliable Microcode Patch Mechanism  
Products Affected. A9  
Normal Specified Operation. The processor should function properly after a microcode patch is loaded.  
Non-conformance. The processor has the patch RAM BIST function disabled. Since BIST is not run on the  
patch RAM, reliable operation of the patch RAM cannot be assured. Therefore it should not be used.  
Potential Effect on System. When a microcode patch is loaded, the system may not behave properly.  
Suggested Workaround. Do not load a microcode patch.  
Resolution Status. Fix planned in future revision.  
11  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
16  
INVLPG Instruction Does Not Flush Entire Four-Megabyte Page Properly with Certain  
Linear Addresses  
Products Affected. A4, A5, A6, A7, A9  
Normal Specified Operation. After executing an INVLPG instruction the TLB should not contain any  
translations for any part of the page frame associated with the designated logical address.  
Non-conformance. When the logical address designated by the INVLPG instruction is mapped by a 4-  
Mbyte page mapping and LA[21] is equal to one it is possible that the TLB will still retain translations  
after the instruction has finished executing.  
Potential Effect on System. The residual data in the TLB can result in unexpected data access to stale or  
invalid pages of memory.  
Suggested Workaround. When using the INVLPG instruction in association with a page that is mapped via  
a 4-Mbyte page translation, always clear bit 21.  
Resolution Status. Fix planned for a future revision.  
12  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
17  
Code Modifications that Coincide with Level 2 Instruction TLB Translations May Escape  
Detection Resulting in Stale Code Execution  
Products Affected. A4, A5, A6, A7, A9  
Normal Specified Operation. Self-modifying code sequences should be correctly detected and handled in a  
manner that results in correct canonical results; stale code should not be executed.  
Non-conformance. If the following events occur within a single clock cycle and the pipeline is not flushed  
by a coincidental event, then the processor will execute the stale code once instead of the newly  
generated code.  
1. A write operation corresponding to the code self-modification has generated an instruction  
cache invalidation  
2. The processor is fetching the line that is being invalidated  
3. The fetch misses in the Level 1 instruction TLB  
4. The fetch hits in the Level 2 instruction TLB  
In this scenario the processor will properly invalidate the instruction cache line but will not mark the  
appropriate bit within the instruction buffer used to track instructions within the pipeline. This causes  
the pipeline to not be flushed and leads to execution of invalid instructions. Subsequent attempts to  
execute the overwritten instruction will miss in the instruction cache and the correct instruction data  
will be fetched from the L2 and subsequently executed.  
Potential Effect on System. Stale code will be executed resulting in unpredictable system behavior.  
Suggested Workaround. Consult with your platform vendor for a BIOS that works around this erratum.  
Resolution Status. No fix planned.  
13  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
20  
A Speculative SMC Store Followed by an Actual SMC Store May Cause One-Time Stale  
Execution  
Products Affected. A4, A5, A6, A7, A9  
Normal Specified Operation. Self-modifying code sequences should be correctly detected and handled in a  
manner consistent with canonical results; stale code should not be executed.  
Non-conformance. The following scenario can result in a one-time execution of stale instructions:  
1. A speculative store instruction initiates a request (R) to modify a 64-byte cache line with address  
A, which currently resides within the L1 instruction cache.  
2. The speculative store instruction is ultimately not executed because of a branch misprediction.  
However, the store R is still in flight attempting to bring the line into the data cache in the  
modified state.  
3. The instruction cache, which fetches instructions 16 bytes at a time, is redirected by the branch  
into the cache line with address A and fetches a portion of the line into the instruction buffer.  
4. R then invalidates the instruction cache line with address A and brings the line into the L1 data  
cache, marking it as modified. However, the instruction buffer, which also contains some bytes  
from address A, is not invalidated.  
5. The instruction fetch mechanism attempts to read the next 16-byte chunk of code and must issue a  
request to bring the 64-byte line back into the instruction cache.  
6. This instruction cache request for address A hits on the modified line now in the L1 cache, and  
evicts it from the data cache to the L2.  
7. A second store instruction (S) from the instruction buffer is issued into the execution units. S is a  
self-modifying code reference to another instruction that currently exists in the 64-byte cache  
block at address A and is also in the instruction buffer.  
8. The execution of S detects that an instruction request to fetch address A is in flight. However, the  
store request is given priority. Since it now hits in the L2 and the L2 state is modified, it assumes  
that the line cannot be in the instruction cache or the instruction buffer.  
Potential Effect on System. The processor will execute stale code instructions.  
Suggested Workaround. None. This failure has only been observed in internally generated synthetic code.  
Resolution Status. No fix planned.  
14  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
21  
Real Mode RDPMC with Illegal ECX May Cause Unpredictable Operation  
Products Affected. A4, A5, A6, A7, A9  
Normal Specified Operation. Illegal values of ECX (that is, ECX>3) for the RDPMC (Read Performance  
Monitor Counter) instruction cause the processor to take a general protection exception.  
Non-conformance. If the RDPMC is executed in real mode with a specific illegal value of ECX=4, then the  
processor may incorrectly enter the GP fault handler as if it were in 32-bit real mode.  
Potential Effect on System. Incorrect instruction decode leading to unpredictable system failure.  
Suggested Workaround. When in real mode, restrict use of the RDPMC instruction to legal counter values  
(0-3). This circumstance is not expected to occur in normal operation and has only been detected in a  
simulation environment.  
Resolution Status. No fix planned.  
15  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
22  
Using Task Gates With Breakpoints Enabled May Cause Unexpected Faults  
Products Affected. A4, A5, A6, A7, A9  
Normal Specified Operation. Task gates should correctly use the TSS selector out of the task gate for CALL  
and JMP instructions.  
Non-conformance. When a task gate is used by a CALL or JMP instruction and any debug breakpoint is  
enabled through the DR7.LE or GE bits, the processor may, under certain timing scenarios, incorrectly  
use the new TSS base[15:0] contained in the new TSS as a selector. This will most likely cause a GP  
fault with an error code of the new TSS base.  
Potential Effect on System. System failure.  
Suggested Workaround. When using software that uses task gates with CALL or JMP instructions, do not  
enable breakpoints.  
Resolution Status. No fix planned.  
16  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
23  
Single Step Across I/O SMI Skips One Debug Trap  
Products Affected. A4, A5, A6, A7, A9  
Normal Specified Operation. When single stepping (with EFLAGS.TF) across an IN or OUT instruction that  
detects an SMI, the processor correctly defers taking the debug trap and instead enters SMM. Upon  
RSM (without I/O restart), the processor should immediately enter the debug trap handler.  
Non-conformance. Under this scenario, the processor does not enter the debug trap handler but instead  
returns to the instruction following the I/O instruction.  
Potential Effect on System. When using the single step debug mode, following an I/O operation that detects  
an SMI, one instruction may appear to be skipped.  
Suggested Workaround. None required as this is a debug limitation only. If a workaround is desired,  
modify the SMM handler to detect this case and enter the debug handler directly.  
Resolution Status. No fix planned.  
17  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
24  
Software Prefetches May Report A Page Fault  
Products Affected. A4, A5, A6, A7, A9  
Normal Specified Operation. Software prefetches should not report page faults if they encounter them.  
Non-conformance. Software prefetch instructions are defined to ignore page faults. Under highly specific  
and detailed internal circumstances, a prefetch instruction may report a page fault if both of the  
following conditions are true:  
The target address of the prefetch would cause a page fault if the address was accessed by an  
actual memory load or store instruction under the current privilege mode;  
The prefetch instruction is followed in execution-order by an actual or speculative byte-sized mem-  
ory access of the same modify-intent to the same address.  
PREFETCH and PREFETCHNTA/0/1/2 have the same modify-intent as a memory load access.  
PREFETCHW has the same modify-intent as a memory store access.  
The page fault exception error code bits for the faulting prefetch will be identical to that for a byte-  
sized memory access of the same-modify intent to the same address.  
Note that some misaligned accesses can be broken up by the processor into multiple accesses where at  
least one of the accesses is a byte-sized access.  
If the target address of the subsequent memory access of the same modify-intent is aligned and not  
byte-sized, this errata does not occur and no workaround is needed.  
Potential Effect on System. An unexpected page fault may occur infrequently on a prefetch instruction.  
Suggested Workaround. Two workarounds are described for this erratum.  
Kernel Workaround  
The Operating System kernel can work around the erratum by allowing the page fault handler to  
satisfy the page fault to an "accessible" page regardless of whether the fault was due to a load, store,  
or prefetch operation. If the faulting instruction is permitted access to the page, return to it as usual.  
(An "accessible" page is one for which memory accesses are allowed under the current privilege mode  
once the page is resident in memory).  
If the faulting instruction is trying to access an "inaccessible" page, scan the instruction stream bytes  
at the faulting Instruction Pointer to determine if the instruction is a prefetch. (An "inaccessible"  
page is one for which memory accesses are not allowed under the current privilege mode.) If the  
faulting instruction is a prefetch instruction, simply return back to it; the internal hardware conditions  
that caused the prefetch to fault should be removed and operation should continue normally. If it is not  
a prefetch instruction, generate the appropriate memory access control violation as appropriate. The  
performance impact of doing the scan is small because the actual errata is infrequent and does not  
produce an excessive number of page faults that affect system performance.  
General Workaround  
If the page-fault handler for a kernel can be patched as described in the preceding kernel workaround,  
no further action by software is required. The following general workarounds should only be  
considered for kernels where the page-fault handler can not be patched and a prefetch instruction  
could end up targeting an address in an "inaccessible" page.  
18  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
Because the actual errata is infrequent, it does not produce an excessive number of page faults that  
affect system performance. Therefore a page fault from a prefetch instruction for an address within an  
"accessible" page does not require any general workaround.  
Software can minimize the occurrence of the errata by issuing only one prefetch instruction per cache-  
line (a naturally-aligned 64-byte quantity) and ensuring one of the following:  
In many cases, if a particular target address of a prefetch is known to encounter this errata, simply  
change the prefetch to target the next byte.  
Avoid prefetching inaccessible memory locations, when possible.  
In the general case, ensure that the address used by the prefetch is offset into the middle of an  
aligned quadword near the end of the cache-line. For example, if the address desired to be  
prefetched is "ADDR", use an offset of 0x33 to compute the address used by the actual prefetch  
instruction as: "(ADDR & ~0x3f) + 0x33".  
Resolution Status. No fix planned.  
19  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
2
Revision Determination  
Table 2 shows the AMD Athlon processor model 4 identification number returned by the CPUID  
instruction for each revision of the processor.  
Table 2.  
CPUID Values for the Revisions of the AMD Athlon™ Processor Model 4  
Revision  
CPUID  
642  
A4  
A5  
A6  
A7  
A9  
642  
642  
642  
644  
20  
Download from Www.Somanuals.com. All Manuals Search And Download.  
   
Preliminary Information  
AMD Athlon™ Processor Model 4 Revision Guide  
23614K—October 2003  
3
Technical and Documentation Support  
The following documents provide additional information regarding the operation of the AMD Athlon  
processor model 4. Please refer to the data sheets listed in this section for product marking  
information.  
AMD Athlon™ Processor Model 4 Data Sheet, order# 23792  
AMD-751™ System Controller Data Sheet, order# 21910  
AMD-756™ Peripheral Bus Controller Data Sheet, order# 22548  
AMD Athlon™ Processor x86 Code Optimization Guide, order# 22007  
under NDA, please contact your local sales representative for updates.  
21  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 

Acer Personal Computer 1640 User Manual
AEG Microwave Oven MC2661E User Manual
Agilent Technologies Microwave Oven 53150A User Manual
Allied Telesis Network Router AR4155 User Manual
Amana Clothes Dryer 40119701 User Manual
Amana Cooktop AKT3020 User Manual
Amana Washer Dryer LE4307 User Manual
Amcor Outdoor Shower Ultimate Shower System User Manual
American Standard Hot Tub 752855 XXX0A User Manual
Axis Communications Camcorder AXIS Camera Recorder User Manual