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I would like to programatically disable hardware prefetching.

From Optimizing Application Performance on Intel® Core™ Microarchitecture Using Hardware-Implemented Prefetchers and How to Choose between Hardware and Software Prefetch on 32-Bit Intel® Architecture, I need to update the MSR to disable hardware prefetching.

Here is a relevant snippet:

"DPL Prefetch and L2 Streaming Prefetch settings can also be changed programmatically by writing a device driver utility for changing the bits in the IA32_MISC_ENABLE register – MSR 0x1A0. Such a utility offers the ability to enable or disable prefetch mechanisms without requiring any server downtime.

The table below shows the bits in the IA32_MISC_ENABLE MSR that have to be changed in order to control the DPL and L2 Streaming Prefetch:

Prefetcher Type MSR (0x1A0) Bit Value 
DPL (Hardware Prefetch) Bit 9 0 = Enable 1 = Disable 
L2 Streamer (Adjacent Cache Line Prefetch) Bit 19 0 = Enable 1 = Disable"

I tried using but this did not work. I also tried using wrmsr in asm/msr.h directly but that segfaults. I tried doing this in a kernel module ... and killed the machine.

BTW - I am using kernel 2.6.18-92.el5 and it has MSR linked in the kernel:

$ grep -i msr /boot/config-$(uname -r)

Any help would be greatly appreciated.

share|improve this question
+1 for fascinating question. – Paul Nathan Apr 24 '09 at 0:21
This is going to be painful to do, and send your performance to hell (well, your app will presumably do explicit prefetching -- but will anything else on the machine, like the kernel?). Note that that article about choosing between prefetch techniques mentions only the P4; newer chips are very different from NetBurst! This makes me wonder if you're sure that you have to do this, or if you're just fumbling around something else. – kquinn Apr 24 '09 at 9:27
My actual goal here is to determine the amount of useful prefecthing by comparing the bus bandwidth usage (BUS_TRAN_BURST.SELF events) with and without prefetching. – Carlos Apr 24 '09 at 17:40
Sorry for my ignorance (never did things at the kernel level) but I was under the impression that it would be a Bad Thing(tm) to disable prefetching, i.e. it's there for a reason so don't mess with it.... – Michael Todd Apr 24 '09 at 22:30
.globl _start .text _start: pusha mov msr_pf,%ecx // OF 32 rdmsr mov %edx, hi mov %eax, lo popa mov $1,%eax ; // terminate process mov $0,%ebx ; // result status int $0x80 ; // system call .data .align 8, 0xff lo: .word 0 hi: .word 0 msr_pf: .word 0x1A0 save all that in a file: rdmsr.s Then: as rdmsr.s -o rdmsr.o ld rdmsr.o -o rdmsr If you could run that in ring 0, it would work just fine. – Chris Apr 26 '09 at 0:15
up vote 10 down vote accepted

From the Intel reference:
This instruction must be executed at privilege level 0 or in real-address mode; otherwise, a general protection exception #GP(0) will be generated. Specifying a reserved or unimplemented MSR address in ECX will also cause a general protection exception.

The CPUID instruction should be used to determine whether MSRs are supported (EDX[5]=1) before using this instruction.

So, your fault might be related to a cpu that doesn't support MSRs or using the wrong MSR address.

There are lots of examples of using the MSRs in the kernel source:

In the kernel source, for a single cpu, it demonstrates disabling prefetch for the Xeon in arch/i386/kernel/cpu/intel.c, in the function:

static void __cpuinit Intel_errata_workarounds(struct cpuinfo_x86 *c)

The rdmsr function arguments are the msr number, a pointer to the low 32 bit word, and a pointer to the high 32 bit word.
The wrmsr function arguments are the msr number, the low 32 bit word value, and the high 32 bit word value.

multi-core or smp systems have to pass the cpu struct in as the first argument:
void rdmsr_on_cpu(unsigned int cpu, u32 msr_no, u32 *l, u32 *h);
void wrmsr_on_cpu(unsigned int cpu, u32 msr_no, u32 l, u32 h);

share|improve this answer
It seems that my kernel (2.6.18-92.el5) does not have rdmsr_on_cpu or wrmsr_on_cpu in msr.h. Was this added in 2.6.19? – Carlos Apr 24 '09 at 20:22
I forget exactly, but that sound about right. – Chris Apr 28 '09 at 3:15
It was right after 2.6.18 was chosen for Debian, the patch was introduced in january-2007 according to – Chris Apr 28 '09 at 3:22

You can enable or disable the hardware prefetchers using msr-tools

The following enables the hardware prefetcher (by unsetting bit 9):

[root@... msr-tools-1.2]# ./wrmsr -p 0 0x1a0 0x60628e2089 
[root@... msr-tools-1.2]# ./rdmsr 0x1a0 

The following disables the hardware prefetcher (by enabling bit 9):

[root@... msr-tools-1.2]# ./wrmsr -p 0 0x1a0 0x60628e2289 
[root@... msr-tools-1.2]# ./rdmsr 0x1a0 

Programatically, you can do this as root by opening /dev/cpu/<cpunumber>/msr and using pwrite to write to the msr "file" at the 0x1a0 offset.

share|improve this answer
Thank you Carlos! It may bee needed to do "modprobe msr" before. – JohnTortugo Jun 8 '13 at 20:36

I am adding an answer here, because the previous ones may not be applicable to all Intel processors.

For my Intel Xeon 5650 (06_2CH family) processor the manual chapter 35 specifies that bits 10 to 8 of the register IA32_MISC_ENABLE at adress 0x1A0 are reserved. I guess that this means I can't toggle prefetcher on and off trhough MSR.

According to an answer from an Intel employee here: "Intel has not disclosed how to disable the prefetchers on processors from Nehalem onward.You'll need to disable the prefetchers using options in the BIOS."

share|improve this answer
Reading that post, I see one of the comments linked to this new document which may apply (with a different MSR address) -… – Leeor Aug 11 '15 at 6:39

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