From mboxrd@z Thu Jan 1 00:00:00 1970 From: Srinivas Pandruvada Date: Thu, 04 Apr 2013 20:09:20 +0000 Subject: Re: [lm-sensors] [PATCH 0/4] thermal threshold event notification Message-Id: <515DDDF0.9020904@linux.intel.com> List-Id: References: <1365102689-12581-1-git-send-email-srinivas.pandruvada@linux.intel.com> In-Reply-To: <1365102689-12581-1-git-send-email-srinivas.pandruvada@linux.intel.com> MIME-Version: 1.0 Content-Type: text/plain; charset="us-ascii" Content-Transfer-Encoding: 7bit To: lm-sensors@vger.kernel.org On 04/04/2013 12:43 PM, Guenter Roeck wrote: > On Thu, Apr 04, 2013 at 12:11:25PM -0700, Srinivas Pandruvada wrote: >> This is clear that there is reluctance in adding thresholds in coretemp sysfs, >> during previous attempts. Proably because of lake of use cases. >> But this time use case may be more compelling. >> >> We have many small form factor devices like ultrabooks, slate PCs in the market. >> Unfortunately these devices reach maximum temperature with relatively less >> workloads, causing BIOS to do thermal throttling. There are real performance >> issues due to aggressive BIOS action to control thermals and also thermal breakdown >> in some cases. >> >> Even the most expensive laptops, don't have correct ACPI thermal configuration, >> so that kernel thermal driver can act. In some case even the trip point is higher >> than critical temperature setting. >> >> Intel has developed several drivers, which can be used to cool the system very efficiently. >> They include RAPL based cooling driver, Powerclamp driver and P state driver. >> To utilize these cooling device a closed loop user mode program is required, which >> will utilize these method and dynamically compensate for high CPU temperatures, >> without relying on any configuration data. >> One such solution is developed is "Linux thermal daemon". More details can be >> obtained from >> "https://github.com/01org/thermal_daemon/blob/master/ThermalDaemon_Introduction.pdf". >> This daemon polls for cpu temperature and apply compensation once the CPU reach target >> temperature. >> >> This polling can be mostly avoided, by getting notification for the temperature, where >> it needs to wake up and get ready for apply compensation. In most of the normal use >> cases, there may not be any threshold events. So very minimal number of user space >> notification for thermal thresholds. >> >> >> This patch adds two entries to coretemp sysfs. >> tempX_notify_threshold_1 >> tempX_notify_threshold_2 >> >> These two settings acts on "Package level", not on core level. So it will only appear >> if there is support for package temperature. Many of recent Intel processors, support >> package temperatures >> When any valid value is written to these files, it will directly set corresponding CPU MSR, >> in the corresponding package and read back directly from MSR. Since package MSR, affects >> all cores in package, setting will be applicable to all CPU's in the package minimizing >> read, writes and notifications. Also package threshold interrupts are enabled only when, >> a non zero value is written to thresholds. >> >> Once thresholds are violated, it uses a rate control of 5 seconds, reducing the number >> of interrupts, when temperature is hanging around trip point. Using the sticky log bit, >> it sends kboject uevent change notification for corresponding package sysfs. >> Once the thermal daemon receives notification, it can change to new threshold or act >> immediately to reduce CPU temperature. >> >> >> Srinivas Pandruvada (4): >> x86, mcheck, therm_throt: Process package thresholds >> hwmon: (coretemp) Add threshold support >> hwmon: (coretemp) : Add notification support >> drivers/hwmon/coretemp : Debug fs interface >> >> arch/x86/include/asm/mce.h | 7 + >> arch/x86/kernel/cpu/mcheck/therm_throt.c | 50 ++++- >> drivers/hwmon/coretemp.c | 319 +++++++++++++++++++++++++++++-- >> 3 files changed, 361 insertions(+), 15 deletions(-) >> > Key question: Why does the thermal subsystem not work for you ? Thermal is bigger issue in Ultrabooks, Slate PCs and other small form factor devices. Linux ACPI thermal driver depends on ACPI configuration to activate active/passive control. So if you have garbage data or not optimized data, the current Linux driver can't control thermals. There are multiple platforms with bad ACPI data. Some of them have "ACPI threshold > critical temp" Currently all these systems, rely on BIOS fan and T state control. Once T states are used the performance gets hurt. Also we had cases of thermal breakdown. In addition there are several new methods to cool the system, developed by Intel and are in latest Linux kernel. They are specially designed to cool the system when needed. Thermal daemon uses a close loop control using all available means to control CPU temperature, before BIOS do T states. Also targeting fan-less systems, which will be overheating. > Thanks, > Guenter > _______________________________________________ lm-sensors mailing list lm-sensors@lm-sensors.org http://lists.lm-sensors.org/mailman/listinfo/lm-sensors