v2.0 As suggested by Guenter Roeck, used the previous development in this area as starting point. The first patch is same as what Guenter Roeck submitted before except for checkpatch error for strtoul.As per this patch, the following additional coretemp sysfs entries will be added: tempX_threshold1 - Reflects value of CPU thermal threshold T0. tempX_threshold1_triggered - Reflects status of CPU thermal status register bit 6 (THERM_STATUS_THRESHOLD0). tempX_threshold2 - Reflects value of CPU thermal threshold T1. tempX_threshold2_triggered - Reflects status of CPU thermal status register bit 8 (THERM_STATUS_THRESHOLD1). The notification mechanism is implemented for package level by using uevent. Also a debugfs interface is added to check count of interrupts and worker fn scheduling. v1.0 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. Notification are added only for package level thresholds, to minimize events. Also interrupts are enabled only when a non tj_max(default) 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.* Guenter Roeck (1): hwmon: (coretemp) Add support for thermal threshold attributes Srinivas Pandruvada (3): x86, mcheck, therm_throt: Process package thresholds hwmon: (coretemp) : Add notification support hwmon: (coretemp) : Add debugfs to support thresholds Documentation/hwmon/coretemp | 8 + arch/x86/include/asm/mce.h | 7 + arch/x86/kernel/cpu/mcheck/therm_throt.c | 63 ++++++- drivers/hwmon/coretemp.c | 292 +++++++++++++++++++++++++++++-- 4 files changed, 356 insertions(+), 14 deletions(-) -- 1.7.11.7 _______________________________________________ lm-sensors mailing list lm-sensors@xxxxxxxxxxxxxx http://lists.lm-sensors.org/mailman/listinfo/lm-sensors
