Laptopumu batarya modundayken maksimum batarya süresinde kullanmak istiyorum. GRUB'dan intel_pstate driverini devre dışı bıraktım ve ACPI-cpufreq driverini kullanmaya başladım. Intel_pstate kullanırken batarya da dahil sürekli Turbo Boost açık çalıştırıyordu. ACPI-cpufreq driverine geçince bu sorun düzeldi fakat bu sefer de hem bataryada hem de sarjdayken 1.8 GHz'e sabitlendi.
Tlp ayarlarım da bu şekilde;
auto-cpufreq gibi bütün deamonları devre dışı bıraktım sadece tlp'yi çalışır vaziyette bıraktım. TLP ayarlarımı bu şekilde güncelledim:
Bu script ile de takip ederek çözüme ulaştım
sys-monitor.sh
EDIT: Intel_pstate driverini tekrardan etkinleştirerek bu configi kullandım.
Tlp ayarlarım da bu şekilde;
Kod:
# ------------------------------------------------------------------------------
# /etc/tlp.conf - TLP user configuration (version 1.8.0)
# See full explanation: https://linrunner.de/tlp/settings
#
# Copyright (c) 2025 Thomas Koch <linrunner at gmx.net> and others.
# SPDX-License-Identifier: GPL-2.0-or-later
#
# Settings are read in the following order:
#
# 1. Intrinsic defaults.
# 2. /etc/tlp.d/*.conf - Drop-in customization snippets.
# 3. /etc/tlp.conf - User configuration (this file)
#
# Please note:
# - If parameters are specified more than once, the last occurrence takes.
# precedence. This also means that any parameters defined here will take.
# precedence over any drop-ins.
# - You can however, append values to a parameter already defined as intrinsic.
# default or in a previously read file: use PARAMETER+="add values".
# - Important: all parameters are disabled here. Remove the leading '#' if you.
# want to enable a feature without a default or if you want to set a value.
# other than the default.
# - Parameters must always be specified in pairs, i.e. for AC and BAT.
# If you omit one of them, the value you set will apply to both power.
# sources, since a change will only occur if different values are defined.
# - To completely disable a parameter, use PARAMETER="".
# Legend for defaults:
# - Default *: intrinsic default that is effective when the parameter is.
# missing or the line has a leading #'.
# - Default <none>: do nothing or use kernel/hardware defaults.
#
# ------------------------------------------------------------------------------
# tlp - Parameters for power saving.
# Set to 0 to disable, 1 to enable TLP.
# Default: 1
TLP_ENABLE=1
# Control how warnings about invalid settings are issued:
# 0=disabled,
# 1=background tasks (boot, resume, change of power source) report to syslog,
# 2=shell commands report to the terminal (stderr),
# 3=combination of 1 and 2
# Default: 3
#TLP_WARN_LEVEL=3
# Colorize error, warning, notice and success messages. Colors are specified.
# with ANSI codes:
# 1=bold black, 90=grey, 91=red, 92=green, 93=yellow, 94=blue, 95=magenta,
# 96=cyan, 97=white.
# Other colors are possible, refer to:
# https://en.wikipedia.org/wiki/ANSI_escape_code#3-bit_and_4-bit
# Colors must be specified in the order "<error> <warning> <notice> <success>".
# By default, errors are shown in red, warnings in yellow, notices in bold.
# and success in green.
# Default: "91 93 1 92"
#TLP_MSG_COLORS="91 93 1 92"
# Operation mode when no power supply can be detected: AC, BAT.
# Concerns some desktop and embedded hardware only.
# Default: <none>
#TLP_DEFAULT_MODE=AC
# Operation mode select: 0=depend on power source, 1=always use TLP_DEFAULT_MODE.
# Note: use in conjunction with TLP_DEFAULT_MODE=BAT for BAT settings on AC.
# Default: 0
#TLP_PERSISTENT_DEFAULT=0
# Power supply classes to ignore when determining operation mode: AC, USB, BAT.
# Separate multiple classes with spaces.
# Note: try on laptops where operation mode AC/BAT is incorrectly detected.
# Default: <none>
#TLP_PS_IGNORE="BAT"
# Seconds laptop mode has to wait after the disk goes idle before doing a sync.
# Non-zero value enables, zero disables laptop mode.
# Default: 0 (AC), 2 (BAT)
#DISK_IDLE_SECS_ON_AC=0
#DISK_IDLE_SECS_ON_BAT=2
# Dirty page values (timeouts in secs).
# Default: 15 (AC), 60 (BAT)
#MAX_LOST_WORK_SECS_ON_AC=15
#MAX_LOST_WORK_SECS_ON_BAT=60
# Select a CPU scaling driver operation mode.
# Intel CPU with intel_pstate driver:
# active, passive.
# AMD Zen 2 or newer CPU with amd-pstate driver as of kernel 6.3/6.4(*):
# active, passive, guided(*).
# Default: <none>
#CPU_DRIVER_OPMODE_ON_AC=active
#CPU_DRIVER_OPMODE_ON_BAT=active
# Select a CPU frequency scaling governor.
# Intel CPU with intel_pstate driver or.
# AMD CPU with amd-pstate driver in active mode ('amd-pstate-epp'):
# performance, powersave(*).
# Intel CPU with intel_pstate driver in passive mode ('intel_cpufreq') or.
# AMD CPU with amd-pstate driver in passive or guided mode ('amd-pstate') or.
# Intel, AMD and other CPU brands with acpi-cpufreq driver:
# conservative, ondemand(*), userspace, powersave, performance, schedutil(*).
# Use tlp-stat -p to show the active driver and available governors.
# Important:
# Governors marked (*) above are power efficient for *almost all* workloads.
# and therefore kernel and most distributions have chosen them as defaults.
# You should have done your research about advantages/disadvantages *before*
# changing the governor.
# Default: <none>
#CPU_SCALING_GOVERNOR_ON_AC=performance
#CPU_SCALING_GOVERNOR_ON_BAT=powersave
# Set the min/max frequency available for the scaling governor.
# Possible values depend on your CPU. For available frequencies see.
# the output of tlp-stat -p.
# Notes:
# - Min/max frequencies must always be specified for both AC *and* BAT.
# - Not recommended for use with the intel_pstate driver, use.
# CPU_MIN/MAX_PERF_ON_AC/BAT below instead.
# Default: <none>
#CPU_SCALING_MIN_FREQ_ON_AC=0
#CPU_SCALING_MAX_FREQ_ON_AC=0
#CPU_SCALING_MIN_FREQ_ON_BAT=0
#CPU_SCALING_MAX_FREQ_ON_BAT=0
# Set CPU energy/performance policies EPP and EPB:
# performance, balance_performance, default, balance_power, power.
# Values are given in order of increasing power saving.
# Requires:
# * Intel CPU.
# EPP: Intel Core i 6th gen. or newer CPU with intel_pstate driver.
# EPB: Intel Core i 2nd gen. or newer CPU with intel_pstate driver.
# EPP and EPB are mutually exclusive: when EPP is available, Intel CPUs.
# will not honor EPB. Only the matching feature will be applied by TLP.
# * AMD Zen 2 or newer CPU.
# EPP: amd-pstate driver in active mode ('amd-pstate-epp') as of kernel 6.3
# Default: balance_performance (AC), balance_power (BAT)
CPU_ENERGY_PERF_POLICY_ON_AC=performance
CPU_ENERGY_PERF_POLICY_ON_BAT=balance_power
# Set Intel CPU P-state performance: 0..100 (%).
# Limit the max/min P-state to control the power dissipation of the CPU.
# Values are stated as a percentage of the available performance.
# Requires Intel Core i 2nd gen. or newer CPU with intel_pstate driver.
# Default: <none>
#CPU_MIN_PERF_ON_AC=0
#CPU_MAX_PERF_ON_AC=100
#CPU_MIN_PERF_ON_BAT=0
#CPU_MAX_PERF_ON_BAT=30
# Set the CPU "turbo boost" (Intel) or "core performance boost" (AMD) feature:
# 0=disable, 1=allow.
# Allows to raise the maximum frequency/P-state of some cores if the.
# CPU chip is not fully utilized and below it's intended thermal budget.
# Note: a value of 1 does *not* activate boosting, it just allows it.
# Default: <none>
CPU_BOOST_ON_AC=1
CPU_BOOST_ON_BAT=0
# Set CPU dynamic boost feature:
# 0=disable, 1=enable.
# Improve performance by increasing minimum P-state limit dynamically.
# whenever a task previously waiting on I/O is selected to run.
# Requires Intel Core i 6th gen. or newer CPU: intel_pstate driver in active mode.
# Note: AMD CPUs currently have no tunable for this.
# Default: <none>
#CPU_HWP_DYN_BOOST_ON_AC=1
#CPU_HWP_DYN_BOOST_ON_BAT=0
# Kernel NMI Watchdog:
# 0=disable (default, saves power), 1=enable (for kernel debugging only).
# Default: 0
NMI_WATCHDOG=0
# Select platform profile:
# performance, balanced, low-power.
# Controls system operating characteristics around power/performance levels,
# thermal and fan speed. Values are given in order of increasing power saving.
# Note: check the output of tlp-stat -p to determine availability on your.
# hardware and additional profiles such as: balanced-performance, quiet, cool.
# Default: <none>
PLATFORM_PROFILE_ON_AC=performance
PLATFORM_PROFILE_ON_BAT=ondemand
# System suspend mode:
# s2idle: Idle standby - a pure software, light-weight, system sleep state,
# deep: Suspend to RAM - the whole system is put into a low-power state,
# except for memory, usually resulting in higher savings than s2idle.
# CAUTION: changing suspend mode may lead to system instability and even.
# data loss. As for the availability of different modes on your system,
# check the output of tlp-stat -s. If unsure, stick with the system default.
# by not enabling this.
# Default: <none>
MEM_SLEEP_ON_AC=s2idle
MEM_SLEEP_ON_BAT=deep
# Define disk devices on which the following DISK/AHCI_RUNTIME parameters act.
# Separate multiple devices with spaces.
# Devices can be specified by disk ID also (lookup with: tlp diskid).
# Default: "nvme0n1 sda"
#DISK_DEVICES="nvme0n1 sda"
# Disk advanced power management level: 1..254, 255 (max saving, min, off).
# Levels 1..127 may spin down the disk; 255 allowable on most drives.
# Separate values for multiple disks with spaces. Use the special value 'keep'.
# to keep the hardware default for the particular disk.
# Default: 254 (AC), 128 (BAT)
#DISK_APM_LEVEL_ON_AC="254 254"
#DISK_APM_LEVEL_ON_BAT="128 128"
# Exclude disk classes from advanced power management (APM):
# sata, ata, usb, ieee1394.
# Separate multiple classes with spaces.
# CAUTION: USB and IEEE1394 disks may fail to mount or data may get corrupted.
# with APM enabled. Be careful and make sure you have backups of all affected.
# media before removing 'usb' or 'ieee1394' from the denylist!
# Default: "usb ieee1394"
#DISK_APM_CLASS_DENYLIST="usb ieee1394"
# Hard disk spin down timeout:
# 0: spin down disabled.
# 1..240: timeouts from 5s to 20min (in units of 5s)
# 241..251: timeouts from 30min to 5.5 hours (in units of 30min)
# See 'man hdparm' for details.
# Separate values for multiple disks with spaces. Use the special value 'keep'.
# to keep the hardware default for the particular disk.
# Default: <none>
#DISK_SPINDOWN_TIMEOUT_ON_AC="0 0"
#DISK_SPINDOWN_TIMEOUT_ON_BAT="0 0"
# Select I/O scheduler for the disk devices.
# Multi queue (blk-mq) schedulers:
# mq-deadline(*), none, kyber, bfq.
# Single queue schedulers:
# deadline(*), cfq, bfq, noop.
# (*) recommended.
# Separate values for multiple disks with spaces. Use the special value 'keep'.
# to keep the kernel default scheduler for the particular disk.
# Notes:
# - Multi queue (blk-mq) may need kernel boot option 'scsi_mod.use_blk_mq=1'
# and 'modprobe mq-deadline-iosched|kyber|bfq' on kernels < 5.0
# - Single queue schedulers are legacy now and were removed together with.
# the old block layer in kernel 5.0
# Default: keep.
#DISK_IOSCHED="mq-deadline mq-deadline"
# AHCI link power management (ALPM) for SATA disks:
# min_power, med_power_with_dipm(*), medium_power, max_performance.
# (*) recommended.
# Multiple values separated with spaces are tried sequentially until success.
# Default: med_power_with_dipm (AC & BAT)
#SATA_LINKPWR_ON_AC="med_power_with_dipm"
#SATA_LINKPWR_ON_BAT="med_power_with_dipm"
# Exclude SATA links from AHCI link power management (ALPM).
# SATA links are specified by their host. Refer to the output of.
# tlp-stat -d to determine the host; the format is "hostX".
# Separate multiple hosts with spaces.
# Default: <none>
#SATA_LINKPWR_DENYLIST="host1"
# Runtime Power Management for NVMe, SATA, ATA and USB disks.
# as well as SATA ports:
# on=disable, auto=enable.
# Note: SATA controllers are PCIe bus devices and handled by RUNTIME_PM further.
# down.
# Default: on (AC), auto (BAT)
#AHCI_RUNTIME_PM_ON_AC=on
#AHCI_RUNTIME_PM_ON_BAT=auto
# Seconds of inactivity before disk is suspended.
# Note: effective only when AHCI_RUNTIME_PM_ON_AC/BAT is activated.
# Default: 15.
#AHCI_RUNTIME_PM_TIMEOUT=15
# Power off optical drive in UltraBay/MediaBay: 0=disable, 1=enable.
# Drive can be powered on again by releasing (and reinserting) the eject lever.
# or by pressing the disc eject button on newer models.
# Note: an UltraBay/MediaBay hard disk is never powered off.
# Default: 0
#BAY_POWEROFF_ON_AC=0
#BAY_POWEROFF_ON_BAT=0
# Optical drive device to power off.
# Default: sr0.
#BAY_DEVICE="sr0"
# Set the min/max/turbo frequency for the Intel GPU.
# Possible values depend on your hardware. For available frequencies see.
# the output of tlp-stat -g.
# Default: <none>
#INTEL_GPU_MIN_FREQ_ON_AC=0
#INTEL_GPU_MIN_FREQ_ON_BAT=0
#INTEL_GPU_MAX_FREQ_ON_AC=0
#INTEL_GPU_MAX_FREQ_ON_BAT=0
#INTEL_GPU_BOOST_FREQ_ON_AC=0
#INTEL_GPU_BOOST_FREQ_ON_BAT=0
# AMD GPU power management.
# Performance level (DPM): auto, low, high; auto is recommended.
# Note: requires amdgpu or radeon driver.
# Default: auto.
#RADEON_DPM_PERF_LEVEL_ON_AC=auto
#RADEON_DPM_PERF_LEVEL_ON_BAT=auto
# Dynamic power management method (DPM): balanced, battery, performance.
# Note: radeon driver only.
# Default: <none>
#RADEON_DPM_STATE_ON_AC=performance
#RADEON_DPM_STATE_ON_BAT=battery
# Display panel adaptive backlight modulation (ABM) level: 0(off), 1..4.
# Values 1..4 control the maximum brightness reduction allowed by the ABM.
# algorithm, where 1 represents the least and 4 the most power saving.
# Notes:
# - Requires AMD Vega or newer GPU with amdgpu driver as of kernel 6.9
# - Savings are made at the expense of color balance.
# Default: 0 (AC), 1 (BAT)
#AMDGPU_ABM_LEVEL_ON_AC=0
#AMDGPU_ABM_LEVEL_ON_BAT=3
# Wi-Fi power saving mode: on=enable, off=disable.
# Default: off (AC), on (BAT)
#WIFI_PWR_ON_AC=off
#WIFI_PWR_ON_BAT=on
# Disable Wake-on-LAN: Y/N.
# Default: Y
#WOL_DISABLE=Y
# Enable audio power saving for Intel HDA, AC97 devices (timeout in secs).
# A value of 0 disables, >= 1 enables power saving.
# Note: 1 is recommended for Linux desktop environments with PulseAudio,
# systems without PulseAudio may require 10.
# Default: 1
SOUND_POWER_SAVE_ON_AC=1
SOUND_POWER_SAVE_ON_BAT=1
# Disable controller too (HDA only): Y/N.
# Note: effective only when SOUND_POWER_SAVE_ON_AC/BAT is activated.
# Default: Y
#SOUND_POWER_SAVE_CONTROLLER=Y
# PCIe Active State Power Management (ASPM):
# default(*), performance, powersave, powersupersave.
# (*) keeps BIOS ASPM defaults (recommended)
# Default: <none>
#PCIE_ASPM_ON_AC=default
#PCIE_ASPM_ON_BAT=default
# Runtime Power Management for PCIe bus devices: on=disable, auto=enable.
# Default: on (AC), auto (BAT)
#RUNTIME_PM_ON_AC=on
#RUNTIME_PM_ON_BAT=auto
# Exclude listed PCIe device adresses from Runtime PM.
# Note: this preserves the kernel driver default, to force a certain state.
# use RUNTIME_PM_ENABLE/DISABLE instead.
# Separate multiple addresses with spaces.
# Use lspci to get the adresses (1st column).
# Default: <none>
#RUNTIME_PM_DENYLIST="11:22.3 44:55.6"
# Exclude PCIe devices assigned to the listed drivers from Runtime PM.
# Note: this preserves the kernel driver default, to force a certain state.
# use RUNTIME_PM_ENABLE/DISABLE instead.
# Separate multiple drivers with spaces.
# Default: "mei_me nouveau radeon xhci_hcd", use "" to disable completely.
#RUNTIME_PM_DRIVER_DENYLIST="mei_me nouveau radeon xhci_hcd"
# Permanently enable/disable Runtime PM for listed PCIe device addresses.
# (independent of the power source). This has priority over all preceding.
# Runtime PM settings. Separate multiple addresses with spaces.
# Use lspci to get the adresses (1st column).
# Default: <none>
#RUNTIME_PM_ENABLE="11:22.3"
#RUNTIME_PM_DISABLE="44:55.6"
# Set to 0 to disable, 1 to enable USB autosuspend feature.
# Default: 1
USB_AUTOSUSPEND=1
# Exclude listed devices from USB autosuspend (separate with spaces).
# Use lsusb to get the ids.
# Note: input devices (usbhid) and libsane-supported scanners are excluded.
# automatically.
# Default: <none>
#USB_DENYLIST="1111:2222 3333:4444"
# Exclude audio devices from USB autosuspend:
# 0=do not exclude, 1=exclude.
# Default: 1
#USB_EXCLUDE_AUDIO=1
# Exclude bluetooth devices from USB autosuspend:
# 0=do not exclude, 1=exclude.
# Default: 0
#USB_EXCLUDE_BTUSB=0
# Exclude phone devices from USB autosuspend:
# 0=do not exclude, 1=exclude (enable charging).
# Default: 0
#USB_EXCLUDE_PHONE=0
# Exclude printers from USB autosuspend:
# 0=do not exclude, 1=exclude.
# Default: 1
#USB_EXCLUDE_PRINTER=1
# Exclude WWAN devices from USB autosuspend:
# 0=do not exclude, 1=exclude.
# Default: 0
#USB_EXCLUDE_WWAN=0
# Allow USB autosuspend for listed devices even if already denylisted or.
# excluded above (separate with spaces). Use lsusb to get the ids.
# Default: 0
#USB_ALLOWLIST="1111:2222 3333:4444"
# Restore radio device state (Bluetooth, WiFi, WWAN) from previous shutdown.
# on system startup: 0=disable, 1=enable.
# Note: the parameters DEVICES_TO_DISABLE/ENABLE_ON_STARTUP/SHUTDOWN below.
# are ignored when this is enabled.
# Default: 0
#RESTORE_DEVICE_STATE_ON_STARTUP=0
# Radio devices to disable on startup: bluetooth, nfc, wifi, wwan.
# Separate multiple devices with spaces.
# Default: <none>
#DEVICES_TO_DISABLE_ON_STARTUP="bluetooth nfc wifi wwan"
# Radio devices to enable on startup: bluetooth, nfc, wifi, wwan.
# Separate multiple devices with spaces.
# Default: <none>
#DEVICES_TO_ENABLE_ON_STARTUP="wifi"
# Radio devices to enable on AC: bluetooth, nfc, wifi, wwan.
# Default: <none>
#DEVICES_TO_ENABLE_ON_AC="bluetooth nfc wifi wwan"
# Radio devices to disable on battery: bluetooth, nfc, wifi, wwan.
# Default: <none>
#DEVICES_TO_DISABLE_ON_BAT="bluetooth nfc wifi wwan"
# Radio devices to disable on battery when not in use (not connected):
# bluetooth, nfc, wifi, wwan.
# Default: <none>
#DEVICES_TO_DISABLE_ON_BAT_NOT_IN_USE="bluetooth nfc wifi wwan"
# Battery Care -- Charge thresholds.
# Charging starts when the charger is connected and the charge level.
# is below the start threshold. Charging stops when the charge level.
# is above the stop threshold.
# Required hardware: Lenovo ThinkPads and other laptop brands are driven.
# via specific plugins:
# - Use the tlp-stat -b command to see if a plugin for your hardware is.
# active and to look up vendor-specific threshold values. Some.
# laptops support only 1 (on)/0 (off) instead of a percentage level.
# - If your hardware supports a start *and* a stop threshold, you must.
# specify both, otherwise TLP will refuse to apply the single threshold.
# - If your hardware supports only a stop threshold, set the start.
# value to 0.
# - The names of the batteries shown by tlp-stat -b don't have to match.
# the _BAT0 or _BAT1 parameter qualifiers. Please refer to [2]
# to see which qualifier applies to which battery.
# For further explanation and all vendor specific details refer to.
# [1] https://linrunner.de/tlp/settings/battery.html
# [2] https://linrunner.de/tlp/settings/bc-vendors.html
# BAT0: Main battery.
# Default: <none>
# Battery charge level below which charging will begin.
START_CHARGE_THRESH_BAT0=75
# Battery charge level above which charging will stop.
STOP_CHARGE_THRESH_BAT0=80
# BAT1: Secondary battery (primary on some laptops)
# Default: <none>
# Battery charge level below which charging will begin.
START_CHARGE_THRESH_BAT1=75
# Battery charge level above which charging will stop.
STOP_CHARGE_THRESH_BAT1=80
# Restore charge thresholds when AC is unplugged: 0=disable, 1=enable.
# Default: 0
#RESTORE_THRESHOLDS_ON_BAT=1
# ------------------------------------------------------------------------------
# tlp-rdw - Parameters for the radio device wizard.
# Possible devices: bluetooth, wifi, wwan.
# Separate multiple radio devices with spaces.
# Default: <none> (for all parameters below)
# Radio devices to disable on connect.
#DEVICES_TO_DISABLE_ON_LAN_CONNECT="wifi wwan"
#DEVICES_TO_DISABLE_ON_WIFI_CONNECT="wwan"
#DEVICES_TO_DISABLE_ON_WWAN_CONNECT="wifi"
# Radio devices to enable on disconnect.
#DEVICES_TO_ENABLE_ON_LAN_DISCONNECT="wifi wwan"
#DEVICES_TO_ENABLE_ON_WIFI_DISCONNECT=""
#DEVICES_TO_ENABLE_ON_WWAN_DISCONNECT=""
# Radio devices to enable/disable when docked.
#DEVICES_TO_ENABLE_ON_DOCK=""
#DEVICES_TO_DISABLE_ON_DOCK=""
# Radio devices to enable/disable when undocked.
#DEVICES_TO_ENABLE_ON_UNDOCK="wifi"
#DEVICES_TO_DISABLE_ON_UNDOCK=""auto-cpufreq gibi bütün deamonları devre dışı bıraktım sadece tlp'yi çalışır vaziyette bıraktım. TLP ayarlarımı bu şekilde güncelledim:
Kod:
# ------------------------------------------------------------------------------
# /etc/tlp.conf - TLP user configuration (version 1.8.0)
# See full explanation: https://linrunner.de/tlp/settings
#
# Copyright (c) 2025 Thomas Koch <linrunner at gmx.net> and others.
# SPDX-License-Identifier: GPL-2.0-or-later
#
# Settings are read in the following order:
#
# 1. Intrinsic defaults
# 2. /etc/tlp.d/*.conf - Drop-in customization snippets
# 3. /etc/tlp.conf - User configuration (this file)
#
# Please note:
# - If parameters are specified more than once, the last occurrence takes
# precedence. This also means that any parameters defined here will take
# precedence over any drop-ins.
# - You can however, append values to a parameter already defined as intrinsic
# default or in a previously read file: use PARAMETER+="add values".
# - Important: all parameters are disabled here. Remove the leading '#' if you
# want to enable a feature without a default or if you want to set a value
# other than the default.
# - Parameters must always be specified in pairs, i.e. for AC and BAT.
# If you omit one of them, the value you set will apply to both power
# sources, since a change will only occur if different values are defined.
# - To completely disable a parameter, use PARAMETER="".
# Legend for defaults:
# - Default *: intrinsic default that is effective when the parameter is
# missing or the line has a leading #'.
# - Default <none>: do nothing or use kernel/hardware defaults.
#
# ------------------------------------------------------------------------------
# tlp - Parameters for power saving
# Set to 0 to disable, 1 to enable TLP.
# Default: 1
TLP_ENABLE=1
#CPU_HWP_DYN_BOOST_ON_AC=1
#CPU_HWP_DYN_BOOST_ON_BAT=0
CPU_ENERGY_PERF_POLICY_ON_AC=performance
CPU_ENERGY_PERF_POLICY_ON_BAT=low-power
WIFI_PWR_ON_AC=off
WIFI_PWR_ON_BAT=on
INTEL_GPU_MIN_FREQ_ON_AC=100
INTEL_GPU_MAX_FREQ_ON_AC=1250
INTEL_GPU_BOOST_FREQ_ON_AC=1250
INTEL_GPU_MIN_FREQ_ON_BAT=100
INTEL_GPU_MAX_FREQ_ON_BAT=600
INTEL_GPU_BOOST_FREQ_ON_BAT=600
# Control how warnings about invalid settings are issued:
# 0=disabled,
# 1=background tasks (boot, resume, change of power source) report to syslog,
# 2=shell commands report to the terminal (stderr),
# 3=combination of 1 and 2
# Default: 3
#TLP_WARN_LEVEL=3
# Colorize error, warning, notice and success messages. Colors are specified
# with ANSI codes:
# 1=bold black, 90=grey, 91=red, 92=green, 93=yellow, 94=blue, 95=magenta,
# 96=cyan, 97=white.
# Other colors are possible, refer to:
# https://en.wikipedia.org/wiki/ANSI_escape_code#3-bit_and_4-bit
# Colors must be specified in the order "<error> <warning> <notice> <success>".
# By default, errors are shown in red, warnings in yellow, notices in bold
# and success in green.
# Default: "91 93 1 92"
#TLP_MSG_COLORS="91 93 1 92"
# Operation mode when no power supply can be detected: AC, BAT.
# Concerns some desktop and embedded hardware only.
# Default: <none>
#TLP_DEFAULT_MODE=AC
# Operation mode select: 0=depend on power source, 1=always use TLP_DEFAULT_MODE
# Note: use in conjunction with TLP_DEFAULT_MODE=BAT for BAT settings on AC.
# Default: 0
#TLP_PERSISTENT_DEFAULT=0
# Power supply classes to ignore when determining operation mode: AC, USB, BAT.
# Separate multiple classes with spaces.
# Note: try on laptops where operation mode AC/BAT is incorrectly detected.
# Default: <none>
#TLP_PS_IGNORE="BAT"
# Seconds laptop mode has to wait after the disk goes idle before doing a sync.
# Non-zero value enables, zero disables laptop mode.
# Default: 0 (AC), 2 (BAT)
#DISK_IDLE_SECS_ON_AC=0
#DISK_IDLE_SECS_ON_BAT=2
# Dirty page values (timeouts in secs).
# Default: 15 (AC), 60 (BAT)
#MAX_LOST_WORK_SECS_ON_AC=15
#MAX_LOST_WORK_SECS_ON_BAT=60
# Select a CPU scaling driver operation mode.
# Intel CPU with intel_pstate driver:
# active, passive.
# AMD Zen 2 or newer CPU with amd-pstate driver as of kernel 6.3/6.4(*):
# active, passive, guided(*).
# Default: <none>
#CPU_DRIVER_OPMODE_ON_AC=active
#CPU_DRIVER_OPMODE_ON_BAT=active
# Select a CPU frequency scaling governor.
# Intel CPU with intel_pstate driver or
# AMD CPU with amd-pstate driver in active mode ('amd-pstate-epp'):
# performance, powersave(*).
# Intel CPU with intel_pstate driver in passive mode ('intel_cpufreq') or
# AMD CPU with amd-pstate driver in passive or guided mode ('amd-pstate') or
# Intel, AMD and other CPU brands with acpi-cpufreq driver:
# conservative, ondemand(*), userspace, powersave, performance, schedutil(*).
# Use tlp-stat -p to show the active driver and available governors.
# Important:
# Governors marked (*) above are power efficient for *almost all* workloads
# and therefore kernel and most distributions have chosen them as defaults.
# You should have done your research about advantages/disadvantages *before*
# changing the governor.
# Default: <none>
CPU_SCALING_GOVERNOR_ON_AC=performance
CPU_SCALING_GOVERNOR_ON_BAT=powersave
# Set the min/max frequency available for the scaling governor.
# Possible values depend on your CPU. For available frequencies see
# the output of tlp-stat -p.
# Notes:
# - Min/max frequencies must always be specified for both AC *and* BAT
# - Not recommended for use with the intel_pstate driver, use
# CPU_MIN/MAX_PERF_ON_AC/BAT below instead
# Default: <none>
#CPU_SCALING_MIN_FREQ_ON_AC=0
#CPU_SCALING_MAX_FREQ_ON_AC=0
#CPU_SCALING_MIN_FREQ_ON_BAT=0
#CPU_SCALING_MAX_FREQ_ON_BAT=0
# Set CPU energy/performance policies EPP and EPB:
# performance, balance_performance, default, balance_power, power.
# Values are given in order of increasing power saving.
# Requires:
# * Intel CPU
# EPP: Intel Core i 6th gen. or newer CPU with intel_pstate driver
# EPB: Intel Core i 2nd gen. or newer CPU with intel_pstate driver
# EPP and EPB are mutually exclusive: when EPP is available, Intel CPUs
# will not honor EPB. Only the matching feature will be applied by TLP.
# * AMD Zen 2 or newer CPU
# EPP: amd-pstate driver in active mode ('amd-pstate-epp') as of kernel 6.3
# Default: balance_performance (AC), balance_power (BAT)
#CPU_ENERGY_PERF_POLICY_ON_AC=performance
#CPU_ENERGY_PERF_POLICY_ON_BAT=balance_power
# Set Intel CPU P-state performance: 0..100 (%).
# Limit the max/min P-state to control the power dissipation of the CPU.
# Values are stated as a percentage of the available performance.
# Requires Intel Core i 2nd gen. or newer CPU with intel_pstate driver.
# Default: <none>
CPU_MIN_PERF_ON_AC=0
CPU_MAX_PERF_ON_AC=100
CPU_MIN_PERF_ON_BAT=0
CPU_MAX_PERF_ON_BAT=40
# Set the CPU "turbo boost" (Intel) or "core performance boost" (AMD) feature:
# 0=disable, 1=allow.
# Allows to raise the maximum frequency/P-state of some cores if the
# CPU chip is not fully utilized and below it's intended thermal budget.
# Note: a value of 1 does *not* activate boosting, it just allows it.
# Default: <none>
CPU_BOOST_ON_AC=1
CPU_BOOST_ON_BAT=0
# Set CPU dynamic boost feature:
# 0=disable, 1=enable.
# Improve performance by increasing minimum P-state limit dynamically
# whenever a task previously waiting on I/O is selected to run.
# Requires Intel Core i 6th gen. or newer CPU: intel_pstate driver in active mode.
# Note: AMD CPUs currently have no tunable for this.
# Default: <none>
#CPU_HWP_DYN_BOOST_ON_AC=1
#CPU_HWP_DYN_BOOST_ON_BAT=0
# Kernel NMI Watchdog:
# 0=disable (default, saves power), 1=enable (for kernel debugging only).
# Default: 0
NMI_WATCHDOG=0
# Select platform profile:
# performance, balanced, low-power.
# Controls system operating characteristics around power/performance levels,
# thermal and fan speed. Values are given in order of increasing power saving.
# Note: check the output of tlp-stat -p to determine availability on your
# hardware and additional profiles such as: balanced-performance, quiet, cool.
# Default: <none>
PLATFORM_PROFILE_ON_AC=performance
PLATFORM_PROFILE_ON_BAT=low-power
# System suspend mode:
# s2idle: Idle standby - a pure software, light-weight, system sleep state,
# deep: Suspend to RAM - the whole system is put into a low-power state,
# except for memory, usually resulting in higher savings than s2idle.
# CAUTION: changing suspend mode may lead to system instability and even
# data loss. As for the availability of different modes on your system,
# check the output of tlp-stat -s. If unsure, stick with the system default
# by not enabling this.
# Default: <none>
MEM_SLEEP_ON_AC=s2idle
MEM_SLEEP_ON_BAT=deep
# Define disk devices on which the following DISK/AHCI_RUNTIME parameters act.
# Separate multiple devices with spaces.
# Devices can be specified by disk ID also (lookup with: tlp diskid).
# Default: "nvme0n1 sda"
#DISK_DEVICES="nvme0n1 sda"
# Disk advanced power management level: 1..254, 255 (max saving, min, off).
# Levels 1..127 may spin down the disk; 255 allowable on most drives.
# Separate values for multiple disks with spaces. Use the special value 'keep'
# to keep the hardware default for the particular disk.
# Default: 254 (AC), 128 (BAT)
#DISK_APM_LEVEL_ON_AC="254 254"
#DISK_APM_LEVEL_ON_BAT="128 128"
# Exclude disk classes from advanced power management (APM):
# sata, ata, usb, ieee1394.
# Separate multiple classes with spaces.
# CAUTION: USB and IEEE1394 disks may fail to mount or data may get corrupted
# with APM enabled. Be careful and make sure you have backups of all affected
# media before removing 'usb' or 'ieee1394' from the denylist!
# Default: "usb ieee1394"
#DISK_APM_CLASS_DENYLIST="usb ieee1394"
# Hard disk spin down timeout:
# 0: spin down disabled
# 1..240: timeouts from 5s to 20min (in units of 5s)
# 241..251: timeouts from 30min to 5.5 hours (in units of 30min)
# See 'man hdparm' for details.
# Separate values for multiple disks with spaces. Use the special value 'keep'
# to keep the hardware default for the particular disk.
# Default: <none>
#DISK_SPINDOWN_TIMEOUT_ON_AC="0 0"
#DISK_SPINDOWN_TIMEOUT_ON_BAT="0 0"
# Select I/O scheduler for the disk devices.
# Multi queue (blk-mq) schedulers:
# mq-deadline(*), none, kyber, bfq
# Single queue schedulers:
# deadline(*), cfq, bfq, noop
# (*) recommended.
# Separate values for multiple disks with spaces. Use the special value 'keep'
# to keep the kernel default scheduler for the particular disk.
# Notes:
# - Multi queue (blk-mq) may need kernel boot option 'scsi_mod.use_blk_mq=1'
# and 'modprobe mq-deadline-iosched|kyber|bfq' on kernels < 5.0
# - Single queue schedulers are legacy now and were removed together with
# the old block layer in kernel 5.0
# Default: keep
#DISK_IOSCHED="mq-deadline mq-deadline"
# AHCI link power management (ALPM) for SATA disks:
# min_power, med_power_with_dipm(*), medium_power, max_performance.
# (*) recommended.
# Multiple values separated with spaces are tried sequentially until success.
# Default: med_power_with_dipm (AC & BAT)
#SATA_LINKPWR_ON_AC="med_power_with_dipm"
#SATA_LINKPWR_ON_BAT="med_power_with_dipm"
# Exclude SATA links from AHCI link power management (ALPM).
# SATA links are specified by their host. Refer to the output of
# tlp-stat -d to determine the host; the format is "hostX".
# Separate multiple hosts with spaces.
# Default: <none>
#SATA_LINKPWR_DENYLIST="host1"
# Runtime Power Management for NVMe, SATA, ATA and USB disks
# as well as SATA ports:
# on=disable, auto=enable.
# Note: SATA controllers are PCIe bus devices and handled by RUNTIME_PM further
# down.
# Default: on (AC), auto (BAT)
#AHCI_RUNTIME_PM_ON_AC=on
#AHCI_RUNTIME_PM_ON_BAT=auto
# Seconds of inactivity before disk is suspended.
# Note: effective only when AHCI_RUNTIME_PM_ON_AC/BAT is activated.
# Default: 15
#AHCI_RUNTIME_PM_TIMEOUT=15
# Power off optical drive in UltraBay/MediaBay: 0=disable, 1=enable.
# Drive can be powered on again by releasing (and reinserting) the eject lever
# or by pressing the disc eject button on newer models.
# Note: an UltraBay/MediaBay hard disk is never powered off.
# Default: 0
#BAY_POWEROFF_ON_AC=0
#BAY_POWEROFF_ON_BAT=0
# Optical drive device to power off
# Default: sr0
#BAY_DEVICE="sr0"
# Set the min/max/turbo frequency for the Intel GPU.
# Possible values depend on your hardware. For available frequencies see
# the output of tlp-stat -g.
# Default: <none>
#INTEL_GPU_MIN_FREQ_ON_AC=0
#INTEL_GPU_MIN_FREQ_ON_BAT=0
#INTEL_GPU_MAX_FREQ_ON_AC=0
#INTEL_GPU_MAX_FREQ_ON_BAT=0
#INTEL_GPU_BOOST_FREQ_ON_AC=0
#INTEL_GPU_BOOST_FREQ_ON_BAT=0
# AMD GPU power management.
# Performance level (DPM): auto, low, high; auto is recommended.
# Note: requires amdgpu or radeon driver.
# Default: auto
#RADEON_DPM_PERF_LEVEL_ON_AC=auto
#RADEON_DPM_PERF_LEVEL_ON_BAT=auto
# Dynamic power management method (DPM): balanced, battery, performance.
# Note: radeon driver only.
# Default: <none>
#RADEON_DPM_STATE_ON_AC=performance
#RADEON_DPM_STATE_ON_BAT=battery
# Display panel adaptive backlight modulation (ABM) level: 0(off), 1..4.
# Values 1..4 control the maximum brightness reduction allowed by the ABM
# algorithm, where 1 represents the least and 4 the most power saving.
# Notes:
# - Requires AMD Vega or newer GPU with amdgpu driver as of kernel 6.9
# - Savings are made at the expense of color balance
# Default: 0 (AC), 1 (BAT)
#AMDGPU_ABM_LEVEL_ON_AC=0
#AMDGPU_ABM_LEVEL_ON_BAT=3
# Wi-Fi power saving mode: on=enable, off=disable.
# Default: off (AC), on (BAT)
#WIFI_PWR_ON_AC=off
#WIFI_PWR_ON_BAT=on
# Disable Wake-on-LAN: Y/N.
# Default: Y
#WOL_DISABLE=Y
# Enable audio power saving for Intel HDA, AC97 devices (timeout in secs).
# A value of 0 disables, >= 1 enables power saving.
# Note: 1 is recommended for Linux desktop environments with PulseAudio,
# systems without PulseAudio may require 10.
# Default: 1
SOUND_POWER_SAVE_ON_AC=1
SOUND_POWER_SAVE_ON_BAT=1
# Disable controller too (HDA only): Y/N.
# Note: effective only when SOUND_POWER_SAVE_ON_AC/BAT is activated.
# Default: Y
#SOUND_POWER_SAVE_CONTROLLER=Y
# PCIe Active State Power Management (ASPM):
# default(*), performance, powersave, powersupersave.
# (*) keeps BIOS ASPM defaults (recommended)
# Default: <none>
#PCIE_ASPM_ON_AC=default
#PCIE_ASPM_ON_BAT=default
# Runtime Power Management for PCIe bus devices: on=disable, auto=enable.
# Default: on (AC), auto (BAT)
#RUNTIME_PM_ON_AC=on
#RUNTIME_PM_ON_BAT=auto
# Exclude listed PCIe device adresses from Runtime PM.
# Note: this preserves the kernel driver default, to force a certain state
# use RUNTIME_PM_ENABLE/DISABLE instead.
# Separate multiple addresses with spaces.
# Use lspci to get the adresses (1st column).
# Default: <none>
#RUNTIME_PM_DENYLIST="11:22.3 44:55.6"
# Exclude PCIe devices assigned to the listed drivers from Runtime PM.
# Note: this preserves the kernel driver default, to force a certain state
# use RUNTIME_PM_ENABLE/DISABLE instead.
# Separate multiple drivers with spaces.
# Default: "mei_me nouveau radeon xhci_hcd", use "" to disable completely.
#RUNTIME_PM_DRIVER_DENYLIST="mei_me nouveau radeon xhci_hcd"
# Permanently enable/disable Runtime PM for listed PCIe device addresses
# (independent of the power source). This has priority over all preceding
# Runtime PM settings. Separate multiple addresses with spaces.
# Use lspci to get the adresses (1st column).
# Default: <none>
#RUNTIME_PM_ENABLE="11:22.3"
#RUNTIME_PM_DISABLE="44:55.6"
# Set to 0 to disable, 1 to enable USB autosuspend feature.
# Default: 1
USB_AUTOSUSPEND=1
# Exclude listed devices from USB autosuspend (separate with spaces).
# Use lsusb to get the ids.
# Note: input devices (usbhid) and libsane-supported scanners are excluded
# automatically.
# Default: <none>
#USB_DENYLIST="1111:2222 3333:4444"
# Exclude audio devices from USB autosuspend:
# 0=do not exclude, 1=exclude.
# Default: 1
#USB_EXCLUDE_AUDIO=1
# Exclude bluetooth devices from USB autosuspend:
# 0=do not exclude, 1=exclude.
# Default: 0
#USB_EXCLUDE_BTUSB=0
# Exclude phone devices from USB autosuspend:
# 0=do not exclude, 1=exclude (enable charging).
# Default: 0
#USB_EXCLUDE_PHONE=0
# Exclude printers from USB autosuspend:
# 0=do not exclude, 1=exclude.
# Default: 1
#USB_EXCLUDE_PRINTER=1
# Exclude WWAN devices from USB autosuspend:
# 0=do not exclude, 1=exclude.
# Default: 0
#USB_EXCLUDE_WWAN=0
# Allow USB autosuspend for listed devices even if already denylisted or
# excluded above (separate with spaces). Use lsusb to get the ids.
# Default: 0
#USB_ALLOWLIST="1111:2222 3333:4444"
# Restore radio device state (Bluetooth, WiFi, WWAN) from previous shutdown
# on system startup: 0=disable, 1=enable.
# Note: the parameters DEVICES_TO_DISABLE/ENABLE_ON_STARTUP/SHUTDOWN below
# are ignored when this is enabled.
# Default: 0
#RESTORE_DEVICE_STATE_ON_STARTUP=0
# Radio devices to disable on startup: bluetooth, nfc, wifi, wwan.
# Separate multiple devices with spaces.
# Default: <none>
#DEVICES_TO_DISABLE_ON_STARTUP="bluetooth nfc wifi wwan"
# Radio devices to enable on startup: bluetooth, nfc, wifi, wwan.
# Separate multiple devices with spaces.
# Default: <none>
#DEVICES_TO_ENABLE_ON_STARTUP="wifi"
# Radio devices to enable on AC: bluetooth, nfc, wifi, wwan.
# Default: <none>
#DEVICES_TO_ENABLE_ON_AC="bluetooth nfc wifi wwan"
# Radio devices to disable on battery: bluetooth, nfc, wifi, wwan.
# Default: <none>
#DEVICES_TO_DISABLE_ON_BAT="bluetooth nfc wifi wwan"
# Radio devices to disable on battery when not in use (not connected):
# bluetooth, nfc, wifi, wwan.
# Default: <none>
#DEVICES_TO_DISABLE_ON_BAT_NOT_IN_USE="bluetooth nfc wifi wwan"
# Battery Care -- Charge thresholds
# Charging starts when the charger is connected and the charge level
# is below the start threshold. Charging stops when the charge level
# is above the stop threshold.
# Required hardware: Lenovo ThinkPads and other laptop brands are driven
# via specific plugins:
# - Use the tlp-stat -b command to see if a plugin for your hardware is
# active and to look up vendor-specific threshold values. Some
# laptops support only 1 (on)/0 (off) instead of a percentage level.
# - If your hardware supports a start *and* a stop threshold, you must
# specify both, otherwise TLP will refuse to apply the single threshold.
# - If your hardware supports only a stop threshold, set the start
# value to 0.
# - The names of the batteries shown by tlp-stat -b don't have to match
# the _BAT0 or _BAT1 parameter qualifiers. Please refer to [2]
# to see which qualifier applies to which battery.
# For further explanation and all vendor specific details refer to
# [1] https://linrunner.de/tlp/settings/battery.html
# [2] https://linrunner.de/tlp/settings/bc-vendors.html
# BAT0: Main battery
# Default: <none>
# Battery charge level below which charging will begin.
START_CHARGE_THRESH_BAT0=75
# Battery charge level above which charging will stop.
STOP_CHARGE_THRESH_BAT0=80
# BAT1: Secondary battery (primary on some laptops)
# Default: <none>
# Battery charge level below which charging will begin.
START_CHARGE_THRESH_BAT1=75
# Battery charge level above which charging will stop.
STOP_CHARGE_THRESH_BAT1=80
# Restore charge thresholds when AC is unplugged: 0=disable, 1=enable.
# Default: 0
RESTORE_THRESHOLDS_ON_BAT=1
# ------------------------------------------------------------------------------
# tlp-rdw - Parameters for the radio device wizard
# Possible devices: bluetooth, wifi, wwan.
# Separate multiple radio devices with spaces.
# Default: <none> (for all parameters below)
# Radio devices to disable on connect.
#DEVICES_TO_DISABLE_ON_LAN_CONNECT="wifi wwan"
#DEVICES_TO_DISABLE_ON_WIFI_CONNECT="wwan"
#DEVICES_TO_DISABLE_ON_WWAN_CONNECT="wifi"
# Radio devices to enable on disconnect.
#DEVICES_TO_ENABLE_ON_LAN_DISCONNECT="wifi wwan"
#DEVICES_TO_ENABLE_ON_WIFI_DISCONNECT=""
#DEVICES_TO_ENABLE_ON_WWAN_DISCONNECT=""
# Radio devices to enable/disable when docked.
#DEVICES_TO_ENABLE_ON_DOCK=""
#DEVICES_TO_DISABLE_ON_DOCK=""
# Radio devices to enable/disable when undocked.
#DEVICES_TO_ENABLE_ON_UNDOCK="wifi"
#DEVICES_TO_DISABLE_ON_UNDOCK=""sys-monitor.sh
Bash:
#!/bin/bash
BAR_WIDTH=30
CPU_LIST=()
for cpu in /sys/devices/system/cpu/cpu[0-9]*; do
CPU_LIST+=("$(basename $cpu)")
done
# CPU için önceki değerler
declare -A PREV_IDLE PREV_TOTAL
for cpu in "${CPU_LIST[@]}"; do
CPU_STATS=($(awk -v cpu="$cpu" '$1==cpu {for(i=2;i<=NF;i++) print $i}' /proc/stat))
TOTAL=0
for val in "${CPU_STATS[@]}"; do
TOTAL=$((TOTAL + val))
done
IDLE=${CPU_STATS[3]}
PREV_IDLE[$cpu]=$IDLE
PREV_TOTAL[$cpu]=$TOTAL
done
clear
tput civis # imleci gizle
echo "=== Sistem Monitörü ==="
while true; do
sleep 0.5
# CPU
for cpu in "${CPU_LIST[@]}"; do
# Frekans
FREQ=$(cat /sys/devices/system/cpu/$cpu/cpufreq/scaling_cur_freq 2>/dev/null || echo 0)
FREQ=$((FREQ/1000))
# Kullanım
CPU_STATS=($(awk -v cpu="$cpu" '$1==cpu {for(i=2;i<=NF;i++) print $i}' /proc/stat))
TOTAL=0
for val in "${CPU_STATS[@]}"; do
TOTAL=$((TOTAL + val))
done
IDLE=${CPU_STATS[3]}
DIFF_IDLE=$((IDLE - PREV_IDLE[$cpu]))
DIFF_TOTAL=$((TOTAL - PREV_TOTAL[$cpu]))
USAGE=0
if [ $DIFF_TOTAL -ne 0 ]; then
USAGE=$(( (100*(DIFF_TOTAL-DIFF_IDLE)/DIFF_TOTAL) ))
fi
PREV_IDLE[$cpu]=$IDLE
PREV_TOTAL[$cpu]=$TOTAL
# Bar
BAR_LEN=$((USAGE * BAR_WIDTH / 100))
EMPTY_LEN=$((BAR_WIDTH - BAR_LEN))
BAR="$(printf '█%.0s' $(seq 1 $BAR_LEN))$(printf ' %.0s' $(seq 1 $EMPTY_LEN))"
printf "%-5s: %5s MHz |%-${BAR_WIDTH}s %3s%%\n" "$cpu" "$FREQ" "$BAR" "$USAGE"
done
# GPU
GPU_FREQ=$(cat /sys/class/drm/card1/gt_cur_freq_mhz 2>/dev/null || echo 0)
GPU_USAGE=$(cat /sys/class/drm/card1/device/power/gt_busy 2>/dev/null || echo 0)
BAR_LEN=$((GPU_USAGE * BAR_WIDTH / 100))
EMPTY_LEN=$((BAR_WIDTH - BAR_LEN))
GPU_BAR="$(printf '█%.0s' $(seq 1 $BAR_LEN))$(printf ' %.0s' $(seq 1 $EMPTY_LEN))"
printf "%-5s: %5s MHz |%-${BAR_WIDTH}s %3s%%\n" "GPU" "$GPU_FREQ" "$GPU_BAR" "$GPU_USAGE"
# TLP güç planı (ACPI üzerinden)
if [[ -f /sys/firmware/acpi/platform_profile ]]; then
TLP_PROFILE=$(cat /sys/firmware/acpi/platform_profile)
else
TLP_PROFILE="Bilinmiyor"
fi
printf "%-11s: %s\n" "Güç Planı" "$TLP_PROFILE"
# Sonraki güncelleme öncesi ekranı üstten temizle
tput cup 1 0
doneEDIT: Intel_pstate driverini tekrardan etkinleştirerek bu configi kullandım.
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