Hello, welcome to SevenForums!
Many different errors, nothing really as far as processes go to lead on. Two things I'd like you two do:
1. Memtest. Read the following to learn how to download and run memtest to test your memory for errors.
2. If Memtest comes back clean, it's most likely software / driver related. Hopefully we can further diagnose it if it comes to that by enabling Driver Verifier.
LOTS of drivers in need of update:
iirsp.sys - iirsp Tue Dec 13 16:47:54 2005 (Intel Raid StorPort Driver). Update
here.
nfrd960.sys - nfrd960 Tue Jun 06 17:11:48 2006 (IBM ServeRAID Controller Driver). Update
here.
mdmxsdk.sys - mdmxsdk Mon Jun 19 17:27:26 2006 (Conexant Modem Diagnostic Interface x86 Driver). Update
here.
adpu320.sys - adpu320 Tue Feb 27 19:04:15 2007 (Adaptec .NET Ultra320 Driver). Update
here.
adpahci.sys - adpahci Tue May 01 13:30:09 2007 (Adaptec Windows SATA Storport Driver). Update
here.
arc.sys - arc Thu May 24 17:27:55 2007 (Adaptec RAID Storport Driver). Update
here.
SiSRaid2.sys - SiSRaid2 Wed Sep 24 14:28:20 2008 (SiS RAID Stor Miniport Driver). Update
here.
sisraid4.sys - sisraid4 Wed Oct 01 17:56:04 2008 (SiS AHCI Stor-Miniport Driver). Update
here.
adp94xx.sys - adp94xx Fri Dec 05 18:54:42 2008 (Adaptec HostRAID SAS Driver). Update
here.
lsi_fc.sys - lsi_fc Tue Dec 09 17:46:09 2008 (LSI Logic Fusion-MPT FC Driver (StorPort). Update
here.
Code:
*******************************************************************************
* *
* Bugcheck Analysis *
* *
*******************************************************************************
KERNEL_DATA_INPAGE_ERROR (7a)
The requested page of kernel data could not be read in. Typically caused by
a bad block in the paging file or disk controller error. Also see
KERNEL_STACK_INPAGE_ERROR.
If the error status is 0xC000000E, 0xC000009C, 0xC000009D or 0xC0000185,
it means the disk subsystem has experienced a failure.
If the error status is 0xC000009A, then it means the request failed because
a filesystem failed to make forward progress.
Arguments:
Arg1: fffff6fc40028f70, lock type that was held (value 1,2,3, or PTE address)
Arg2: ffffffffc0000185, error status (normally i/o status code)
Arg3: 000000008727ebe0, current process (virtual address for lock type 3, or PTE)
Arg4: fffff880051ee000, virtual address that could not be in-paged (or PTE contents if arg1 is a PTE address)
Debugging Details:
------------------
ERROR_CODE: (NTSTATUS) 0xc0000185 - The I/O device reported an I/O error.
DISK_HARDWARE_ERROR: There was error with disk hardware
BUGCHECK_STR: 0x7a_c0000185
CUSTOMER_CRASH_COUNT: 1
DEFAULT_BUCKET_ID: VISTA_DRIVER_FAULT
PROCESS_NAME: System
CURRENT_IRQL: 0
LAST_CONTROL_TRANSFER: from fffff80002ef8b52 to fffff80002e87c40
STACK_TEXT:
fffff880`03d1d848 fffff800`02ef8b52 : 00000000`0000007a fffff6fc`40028f70 ffffffff`c0000185 00000000`8727ebe0 : nt!KeBugCheckEx
fffff880`03d1d850 fffff800`02eaf6cf : fffffa80`05a20b40 fffff880`03d1d980 fffff800`030bd500 fffff800`02e97e96 : nt! ?? ::FNODOBFM::`string'+0x37bba
fffff880`03d1d930 fffff800`02e95f59 : 00000000`00000000 00000000`00000001 ffffffff`ffffffff fffff800`02ea74d3 : nt!MiIssueHardFault+0x28b
fffff880`03d1d9c0 fffff800`02ebc470 : 00000000`00000001 fffff880`051ee000 fffffa80`0634ba00 fffff6fc`40028f48 : nt!MmAccessFault+0x1399
fffff880`03d1db20 fffff800`02ebc660 : fffffa80`031d4b60 00000000`00000001 fffffa80`00000000 fffff800`02eb9493 : nt!MiInPageSingleKernelStack+0x134
fffff880`03d1dc30 fffff800`02ebc5ef : 00000000`00000000 00000000`00000001 fffffa80`02391b30 00000000`00000080 : nt!MmInPageKernelStack+0x40
fffff880`03d1dc90 fffff800`02ebc334 : 00000000`00000000 00000000`00000000 fffffa80`02391b00 fffffa80`02391b00 : nt!KiInSwapKernelStacks+0x1f
fffff880`03d1dcc0 fffff800`03122fee : ffffffff`ffffffff ffffffff`ffffffff ffffffff`ffffffff ffffffff`ffffffff : nt!KeSwapProcessOrStack+0x84
fffff880`03d1dd00 fffff800`02e795e6 : fffff800`02ffde80 fffffa80`02422600 fffff800`0300bcc0 ffffffff`ffffffff : nt!PspSystemThreadStartup+0x5a
fffff880`03d1dd40 00000000`00000000 : 00000000`00000000 00000000`00000000 00000000`00000000 00000000`00000000 : nt!KxStartSystemThread+0x16
STACK_COMMAND: kb
FOLLOWUP_IP:
nt! ?? ::FNODOBFM::`string'+37bba
fffff800`02ef8b52 cc int 3
SYMBOL_STACK_INDEX: 1
SYMBOL_NAME: nt! ?? ::FNODOBFM::`string'+37bba
FOLLOWUP_NAME: MachineOwner
MODULE_NAME: nt
IMAGE_NAME: ntkrnlmp.exe
DEBUG_FLR_IMAGE_TIMESTAMP: 4e02aaa3
FAILURE_BUCKET_ID: X64_0x7a_c0000185_nt!_??_::FNODOBFM::_string_+37bba
BUCKET_ID: X64_0x7a_c0000185_nt!_??_::FNODOBFM::_string_+37bba
Followup: MachineOwner
*******************************************************************************
* *
* Bugcheck Analysis *
* *
*******************************************************************************
CRITICAL_OBJECT_TERMINATION (f4)
A process or thread crucial to system operation has unexpectedly exited or been
terminated.
Several processes and threads are necessary for the operation of the
system; when they are terminated (for any reason), the system can no
longer function.
Arguments:
Arg1: 0000000000000003, Process
Arg2: fffffa80043d28e0, Terminating object
Arg3: fffffa80043d2bc0, Process image file name
Arg4: fffff800031d58b0, Explanatory message (ascii)
Debugging Details:
------------------
PROCESS_OBJECT: fffffa80043d28e0
IMAGE_NAME: csrss.exe
DEBUG_FLR_IMAGE_TIMESTAMP: 0
MODULE_NAME: csrss
FAULTING_MODULE: 0000000000000000
PROCESS_NAME: csrss.exe
EXCEPTION_CODE: (NTSTATUS) 0xc0000006 - The instruction at 0x%p referenced memory at 0x%p. The required data was not placed into memory because of an I/O error status of 0x%x.
BUGCHECK_STR: 0xF4_IOERR
CUSTOMER_CRASH_COUNT: 1
DEFAULT_BUCKET_ID: VISTA_DRIVER_FAULT
CURRENT_IRQL: 0
STACK_TEXT:
fffff880`0a7b5ac8 fffff800`0325c5e2 : 00000000`000000f4 00000000`00000003 fffffa80`043d28e0 fffffa80`043d2bc0 : nt!KeBugCheckEx
fffff880`0a7b5ad0 fffff800`0320999b : ffffffff`ffffffff fffffa80`053c9530 fffffa80`043d28e0 fffffa80`043d28e0 : nt!PspCatchCriticalBreak+0x92
fffff880`0a7b5b10 fffff800`03189448 : ffffffff`ffffffff 00000000`00000001 fffffa80`043d28e0 00000000`00000008 : nt! ?? ::NNGAKEGL::`string'+0x176d6
fffff880`0a7b5b60 fffff800`02ed0ed3 : fffffa80`043d28e0 fffff880`c0000006 fffffa80`053c9530 fffffa80`04e22060 : nt!NtTerminateProcess+0xf4
fffff880`0a7b5be0 00000000`772615da : 00000000`00000000 00000000`00000000 00000000`00000000 00000000`00000000 : nt!KiSystemServiceCopyEnd+0x13
00000000`008ab6b8 00000000`00000000 : 00000000`00000000 00000000`00000000 00000000`00000000 00000000`00000000 : 0x772615da
STACK_COMMAND: kb
FOLLOWUP_NAME: MachineOwner
FAILURE_BUCKET_ID: X64_0xF4_IOERR_IMAGE_csrss.exe
BUCKET_ID: X64_0xF4_IOERR_IMAGE_csrss.exe
Followup: MachineOwner
*******************************************************************************
* *
* Bugcheck Analysis *
* *
*******************************************************************************
Use !analyze -v to get detailed debugging information.
BugCheck 7A, {fffff6fc40007f20, ffffffffc0000185, 6f0ab860, fffff88000fe4df0}
*** WARNING: Unable to verify timestamp for win32k.sys
*** ERROR: Module load completed but symbols could not be loaded for win32k.sys
GetPointerFromAddress: unable to read from fffff80003116278
Probably caused by : memory_corruption
Followup: memory_corruption
---------
1: kd> !analyze -v
*******************************************************************************
* *
* Bugcheck Analysis *
* *
*******************************************************************************
KERNEL_DATA_INPAGE_ERROR (7a)
The requested page of kernel data could not be read in. Typically caused by
a bad block in the paging file or disk controller error. Also see
KERNEL_STACK_INPAGE_ERROR.
If the error status is 0xC000000E, 0xC000009C, 0xC000009D or 0xC0000185,
it means the disk subsystem has experienced a failure.
If the error status is 0xC000009A, then it means the request failed because
a filesystem failed to make forward progress.
Arguments:
Arg1: fffff6fc40007f20, lock type that was held (value 1,2,3, or PTE address)
Arg2: ffffffffc0000185, error status (normally i/o status code)
Arg3: 000000006f0ab860, current process (virtual address for lock type 3, or PTE)
Arg4: fffff88000fe4df0, virtual address that could not be in-paged (or PTE contents if arg1 is a PTE address)
Debugging Details:
------------------
ERROR_CODE: (NTSTATUS) 0xc0000185 - The I/O device reported an I/O error.
DISK_HARDWARE_ERROR: There was error with disk hardware
BUGCHECK_STR: 0x7a_c0000185
CUSTOMER_CRASH_COUNT: 1
DEFAULT_BUCKET_ID: CODE_CORRUPTION
PROCESS_NAME: System
CURRENT_IRQL: 0
TRAP_FRAME: fffff8800b9d9a10 -- (.trap 0xfffff8800b9d9a10)
NOTE: The trap frame does not contain all registers.
Some register values may be zeroed or incorrect.
rax=fffff8800b9d9bf0 rbx=0000000000000000 rcx=fffffa8002ff5ce0
rdx=fffff8800b9d9be0 rsi=0000000000000000 rdi=0000000000000000
rip=fffff88000fe4df0 rsp=fffff8800b9d9ba8 rbp=fffff80003084260
r8=0000000000000000 r9=fffffa8002ff5e00 r10=0000000000000000
r11=0000000000000000 r12=0000000000000000 r13=0000000000000000
r14=0000000000000000 r15=0000000000000000
iopl=0 nv up ei ng nz na pe nc
partmgr!PmPowerChanged:
fffff880`00fe4df0 0000 add byte ptr [rax],al ds:fffff880`0b9d9bf0=f0
Resetting default scope
LAST_CONTROL_TRANSFER: from fffff80002f54b52 to fffff80002ee3c40
STACK_TEXT:
fffff880`0b9d96f8 fffff800`02f54b52 : 00000000`0000007a fffff6fc`40007f20 ffffffff`c0000185 00000000`6f0ab860 : nt!KeBugCheckEx
fffff880`0b9d9700 fffff800`02f0b6cf : fffffa80`05d842b0 fffff880`0b9d9870 fffff800`03119500 fffffa80`05d842b0 : nt! ?? ::FNODOBFM::`string'+0x37bba
fffff880`0b9d97e0 fffff800`02ef1f59 : 00000000`00000000 00000000`00000008 ffffffff`ffffffff fffff880`017aabcf : nt!MiIssueHardFault+0x28b
fffff880`0b9d98b0 fffff800`02ee1d6e : 00000000`00000008 fffff880`00fe4df0 00000000`00000000 fffffa80`02ff5ce0 : nt!MmAccessFault+0x1399
fffff880`0b9d9a10 fffff880`00fe4df0 : fffff880`00fd8a67 fffffa80`00000000 fffff800`00000001 fffffa80`02ff8600 : nt!KiPageFault+0x16e
fffff880`0b9d9ba8 fffff880`00fd8a67 : fffffa80`00000000 fffff800`00000001 fffffa80`02ff8600 fffffa80`02ff5c00 : partmgr!PmPowerChanged
fffff880`0b9d9bb0 fffff800`031da9e3 : fffffa80`02ff5b90 fffff800`03084260 fffffa80`0606f040 fffffa80`0606f040 : partmgr! ?? ::FNODOBFM::`string'+0x494
fffff880`0b9d9c40 fffff800`02eee001 : fffff800`03194500 fffff800`03084201 fffff800`030e5800 fffffa80`0606f040 : nt!IopProcessWorkItem+0x23
fffff880`0b9d9c70 fffff800`0317efee : fffff880`0430f5a8 fffffa80`0606f040 00000000`00000080 fffffa80`02391b30 : nt!ExpWorkerThread+0x111
fffff880`0b9d9d00 fffff800`02ed55e6 : fffff800`03059e80 fffffa80`0606f040 fffffa80`02489680 fffff880`01a69384 : nt!PspSystemThreadStartup+0x5a
fffff880`0b9d9d40 00000000`00000000 : 00000000`00000000 00000000`00000000 00000000`00000000 00000000`00000000 : nt!KxStartSystemThread+0x16
STACK_COMMAND: kb
CHKIMG_EXTENSION: !chkimg -lo 50 -d !partmgr
fffff88000fe4000-fffff88000fe400a 11 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+1e0
[ 8a 42 01 24 1f 3c 11 0f:55 00 53 00 42 00 20 00 ]
fffff88000fe400c-fffff88000fe401a 15 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+1ec (+0x0c)
[ 00 8a 42 02 0f b6 72 0c:69 00 6e 00 74 00 65 00 ]
fffff88000fe401c - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+1fc (+0x10)
[ 00:6f ]
fffff88000fe401e-fffff88000fe4028 11 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+1fe (+0x02)
[ 8a 42 03 c1 e6 08 88 84:74 00 68 00 65 00 72 00 ]
fffff88000fe402a-fffff88000fe402f 6 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+20a (+0x0c)
[ 00 8a 42 04 45 88:46 00 43 00 2d 00 ]
fffff88000fe4031-fffff88000fe4036 6 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+211 (+0x07)
[ 24 88 84 24 8d 00:00 34 00 30 00 43 ]
fffff88000fe4038-fffff88000fe4040 9 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+218 (+0x07)
[ 00 8a 42 05 88 84 24 8c:4e 00 20 00 55 00 53 00 ]
fffff88000fe4042-fffff88000fe404a 9 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+222 (+0x0a)
[ 00 8a 42 06 88 84 24 8b:20 00 50 00 72 00 69 00 ]
fffff88000fe404c-fffff88000fe4054 9 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+22c (+0x0a)
[ 00 8a 42 07 88 84 24 8a:74 00 65 00 72 00 20 00 ]
fffff88000fe4057-fffff88000fe4074 30 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+237 (+0x0b)
[ 8a 42 08 88 84 24 89 00:00 01 04 15 05 dc 00 54 ]
fffff88000fe4076-fffff88000fe4082 13 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+256 (+0x1f)
[ 8a 42 02 41 c6 04 24 01:01 00 00 00 03 00 00 00 ]
fffff88000fe4084-fffff88000fe408b 8 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+264 (+0x0e)
[ 00 8a 42 03 88 84 24 8e:74 00 65 00 72 00 00 00 ]
fffff88000fe408f-fffff88000fe4095 7 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+26f (+0x0b)
[ 8a 42 04 88 84 24 8d:00 00 00 00 00 00 00 ]
fffff88000fe4099-fffff88000fe409f 7 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+279 (+0x0a)
[ 8a 42 05 88 84 24 8c:00 00 00 00 00 00 00 ]
fffff88000fe40a3-fffff88000fe40a9 7 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+283 (+0x0a)
[ 8a 42 06 88 84 24 8b:00 00 00 00 00 00 00 ]
fffff88000fe40ad-fffff88000fe40b3 7 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+28d (+0x0a)
[ 8a 42 07 88 84 24 8a:00 00 00 00 00 00 00 ]
fffff88000fe40b7-fffff88000fe40bd 7 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+297 (+0x0a)
[ 8a 42 08 88 84 24 89:00 00 00 00 00 00 00 ]
fffff88000fe40c1-fffff88000fe40c7 7 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+2a1 (+0x0a)
[ 8a 42 09 88 84 24 88:00 00 00 00 00 00 00 ]
fffff88000fe40cb-fffff88000fe40d1 7 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+2ab (+0x0a)
[ 8a 42 0a 88 84 24 83:00 02 00 00 00 00 00 ]
fffff88000fe40d4-fffff88000fe40db 8 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+2b4 (+0x09)
[ 00 8a 42 0b 88 84 24 82:02 00 00 00 03 00 00 00 ]
fffff88000fe40df-fffff88000fe40e5 7 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+2bf (+0x0b)
[ 8a 42 0c 88 84 24 81:00 01 00 00 00 00 00 ]
fffff88000fe40e9-fffff88000fe40ef 7 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+2c9 (+0x0a)
[ 8a 42 0d 88 84 24 80:00 00 00 00 00 00 00 ]
fffff88000fe40f3-fffff88000fe40f6 4 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+2d3 (+0x0a)
[ 8b b4 24 80:00 28 03 00 ]
fffff88000fe40f8-fffff88000fe40fe 7 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+2d8 (+0x05)
[ 00 00 48 8b 9c 24 88:50 52 49 56 00 20 00 ]
fffff88000fe4102-fffff88000fe4124 35 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+2e2 (+0x0a)
[ 41 38 3c 24 74 51 49 8b:00 00 00 00 00 00 00 00 ]
fffff88000fe4128-fffff88000fe4155 46 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+308 (+0x26)
[ 48 8b cb e8 e0 76 ff ff:00 00 00 00 00 00 00 00 ]
fffff88000fe4158-fffff88000fe415f 8 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+338 (+0x30)
[ c0 8b c7 48 8b 9c 24 98:00 00 00 00 00 00 00 00 ]
fffff88000fe4163-fffff88000fe4193 49 bytes - partmgr!PmIoctlPassThroughQuerySectorWriteScsi+343 (+0x0b)
[ 48 83 c4 40 41 5f 41 5e:00 00 00 00 00 00 00 00 ]
fffff88000fe4197-fffff88000fe4199 3 bytes - partmgr!PmIoctlPerformance+17 (+0x34)
[ 83 60 08:00 00 00 ]
fffff88000fe419b-fffff88000fe419e 4 bytes - partmgr!PmIoctlPerformance+1b (+0x04)
[ 48 8b 82 b8:00 00 00 00 ]
fffff88000fe41a2-fffff88000fe41b2 17 bytes - partmgr!PmIoctlPerformance+22 (+0x07)
[ 48 8b 79 40 33 db 83 78:00 00 00 00 00 00 00 00 ]
fffff88000fe41b5-fffff88000fe41b8 4 bytes - partmgr!PmIoctlPerformance+35 (+0x13)
[ c0 e9 bd 00:00 01 00 01 ]
fffff88000fe41bb-fffff88000fe41c2 8 bytes - partmgr!PmIoctlPerformance+3b (+0x06)
[ 48 8b 6a 18 38 9f 29 01:00 00 00 00 00 00 00 00 ]
fffff88000fe41c4-fffff88000fe41c7 4 bytes - partmgr!PmIoctlPerformance+44 (+0x09)
[ 00 0f 85 88:01 00 00 00 ]
fffff88000fe41cb-fffff88000fe4228 94 bytes - partmgr!PmIoctlPerformance+4b (+0x07)
[ 33 d2 48 8d 4c 24 30 44:00 00 00 00 00 00 00 00 ]
fffff88000fe422c-fffff88000fe4234 9 bytes - partmgr!PmIoctlPerformance+ac (+0x61)
[ 01 75 1b 48 8d 8f 38 01:00 00 00 00 00 00 00 00 ]
fffff88000fe4236-fffff88000fe4245 16 bytes - partmgr!PmIoctlPerformance+b6 (+0x0a)
[ e8 15 dd ff ff 85 c0 8b:00 00 01 00 00 00 00 00 ]
fffff88000fe4248-fffff88000fe424b 4 bytes - partmgr!PmIoctlPerformance+c8 (+0x12)
[ eb 05 bb 10:00 00 00 00 ]
fffff88000fe424e-fffff88000fe4256 9 bytes - partmgr!PmIoctlPerformance+ce (+0x06)
[ c0 85 db 78 25 44 8b 8f:00 00 00 00 00 00 00 00 ]
fffff88000fe425a-fffff88000fe425e 5 bytes - partmgr!PmIoctlPerformance+da (+0x0c)
[ 48 8b 8f 38 01:00 00 01 00 00 ]
fffff88000fe4261-fffff88000fe4274 20 bytes - partmgr!PmIoctlPerformance+e1 (+0x07)
[ 4c 8d 05 18 d4 ff ff 48:00 00 00 00 00 00 00 01 ]
fffff88000fe4278-fffff88000fe427c 5 bytes - partmgr!PmIoctlPerformance+f8 (+0x17)
[ 4c 8d 9c 24 a0:00 00 00 00 00 ]
fffff88000fe4280-fffff88000fe42bc 61 bytes - partmgr!PmIoctlPerformance+100 (+0x08)
[ 8b c3 49 8b 5b 18 49 8b:00 00 00 00 00 00 00 00 ]
fffff88000fe42c0-fffff88000fe42d0 17 bytes - partmgr!PmIoctlQueryDeviceState+20 (+0x40)
[ 4c 8b 61 40 33 f6 83 78:41 00 72 00 69 00 61 00 ]
fffff88000fe42d3-fffff88000fe4302 48 bytes - partmgr!PmIoctlQueryDeviceState+33 (+0x13)
[ c0 eb 71 48 8b 7a 18 33:00 00 00 00 00 00 00 00 ]
fffff88000fe4304-fffff88000fe430a 7 bytes - partmgr!PmIoctlQueryDeviceState+64 (+0x31)
[ 00 00 41 8b 94 24 9c:ff ff ff 00 64 00 00 ]
fffff88000fe430e-fffff88000fe4315 8 bytes - partmgr!PmIoctlQueryDeviceState+6e (+0x0a)
[ 89 57 04 41 8b 94 24 d0:00 00 00 00 01 00 01 00 ]
fffff88000fe4319-fffff88000fe4325 13 bytes - partmgr!PmIoctlQueryDeviceState+79 (+0x0b)
[ 49 8d 4c 24 28 89 57 08:00 00 00 00 00 00 00 00 ]
fffff88000fe4329-fffff88000fe4330 8 bytes - partmgr!PmIoctlQueryDeviceState+89 (+0x10)
[ 89 57 0c 41 8b 94 24 d8:00 00 00 01 00 00 00 00 ]
fffff88000fe4334-fffff88000fe4338 5 bytes - partmgr!PmIoctlQueryDeviceState+94 (+0x0b)
[ 89 57 10 33 d2:03 00 00 00 fd ]
WARNING: !chkimg output was truncated to 50 lines. Invoke !chkimg without '-lo [num_lines]' to view entire output.
3688 errors : !partmgr (fffff88000fe4000-fffff88000fe4fff)
MODULE_NAME: memory_corruption
IMAGE_NAME: memory_corruption
FOLLOWUP_NAME: memory_corruption
DEBUG_FLR_IMAGE_TIMESTAMP: 0
MEMORY_CORRUPTOR: LARGE_4096
FAILURE_BUCKET_ID: X64_MEMORY_CORRUPTION_LARGE_4096
BUCKET_ID: X64_MEMORY_CORRUPTION_LARGE_4096
Followup: memory_corruption