上次,我使用了新的“霜塔CPU冷却风扇”用于Raspberry Pi 4之上,它可以很好地冷却主板,但很显然超过了极限。读者和评论者m] [sko提到,固件升级后,可以将Raspberry Pi 4超频到2.0 GHz。这对于我的新粉丝来说,这看起来将会非常完美!
我先升级了固件和操作系统:
sudo rpi-update
sudo apt dist-upgrade然后,以root用户(sudo)编辑 /boot /config.txt 文件,添加以下代码,将最大频率提升到2.0 GHz
force_turbo=0
arm_freq=2000
over_voltage=6不要试图设置force_turbo = 1,因为此选项会允许进一步提升电压,它会改变芯片中的保险结构,这将使您的保修失效。
我们现在可以重新启动主板以验证设置,并检查是否应用:
vcgencmd get_config int | grep "arm\|over"
arm_freq=2000
over_voltage=6好的。在idle状态下频率较低,但正常情况下:
vcgencmd measure_clock arm
frequency(48)=666826176此时电压设置为1.0335V:
vcgencmd measure_volts
volt=1.0335Vover_voltage将以0.025V步进的递减/递增降低或增加最大电压,范围-16至8,或0.8V至1.4V
运行之前的sbc-bench.sh,用rpi-monitor监控温度:
sudo /bin/bash ./sbc-bench.sh -c
WARNING: this tool is meant to run only on Debian Stretch or Ubuntu Bionic.
When running on other distros results are partially meaningless or can't be collected.
Press [ctrl]-[c] to stop or [enter] to continue.
sbc-bench v0.6.7
Installing needed tools. This may take some time... Done.
Checking cpufreq OPP... Done.
Executing tinymembench. This will take a long time... Done.
Executing OpenSSL benchmark. This will take 3 minutes... Done.
Executing 7-zip benchmark. This will take a long time..../sbc-bench.sh: line 600: 4724 Killed taskset -c 0 "${SevenZip}" b -mmt 1 >> ${TempLog}
Done.
Checking cpufreq OPP... Done.
It seems neither throttling nor frequency capping has occured.
Memory performance:
memcpy: 2547.2 MB/s
memset: 3651.0 MB/s (0.8%)
7-zip total scores (3 consecutive runs): 6900,6877,6939
OpenSSL results:
type 16 bytes 64 bytes 256 bytes 1024 bytes 8192 bytes 16384 bytes
aes-128-cbc 83479.79k 102077.25k 110821.72k 112916.14k 113631.23k 113541.12k
aes-128-cbc 83514.12k 102155.14k 110784.17k 112935.59k 113573.89k 113382.74k
aes-192-cbc 67566.13k 86925.76k 95294.38k 97361.58k 98189.31k 98331.31k
aes-192-cbc 75028.43k 90016.62k 96037.97k 97670.83k 98301.27k 98178.39k
aes-256-cbc 68036.63k 79945.09k 84813.82k 86112.60k 86035.11k 86338.22k
aes-256-cbc 61634.20k 77697.69k 84171.18k 85799.94k 86406.49k 86474.75k
Full results uploaded to http://ix.io/1PxG. Please check the log for anomalies (e.g. swapping
or throttling happenend) and otherwise share this URL.从日志中查看7-zip测试期间的最高温度和实际频率:
System health while running 7-zip multi core benchmark:
Time fake/real load %cpu %sys %usr %nice %io %irq Temp VCore
15:11:29: 2000/2000MHz 3.17 14% 1% 12% 0% 0% 0% 48.7°C 1.0335V
15:11:52: 2000/2000MHz 3.28 85% 2% 83% 0% 0% 0% 52.1°C 1.0335V
15:12:34: 2000/2000MHz 4.43 96% 48% 47% 0% 0% 0% 53.1°C 1.0335V
15:12:54: 2000/2001MHz 4.21 83% 3% 79% 0% 0% 0% 52.6°C 1.0335V
15:13:37: 2000/2000MHz 4.96 95% 40% 54% 0% 0% 0% 52.1°C 1.0335V
15:13:57: 2000/2000MHz 4.61 82% 3% 79% 0% 0% 0% 52.6°C 1.0335V
15:14:39: 2000/2000MHz 4.92 95% 37% 57% 0% 0% 0% 52.1°C 1.0335VBroadcom BCM2711处理器,ARM Cortex-A72 2.0 GHz,目前温度高达53.1°C,我们仍然具有良好的安全余量。
rpi-monitor的图表中,在55°C时显示最高值,但仍与处理器的85°C硬件温控限制相差30°C。
让我们看看,相比默认的1.5 GHz频率下运行的Raspberry Pi 4,可以提升多少性能:
内存基准测试性能基本相同,意味着带宽不受处理器频率的限制。
但对于其他类型基准测试,我们可以获得27%至33%的性能提升,这大概与预期的33%的理论性能提升相匹配。
如果出于某些原因,您希望拥有更高的内存带宽,那么您可能会遇到sdram_freq和over_voltage_sdram选项的设置,如RPi 超频选项中所述。
翻译来源:https://www.cnx-software.com/2019/07/26/how-to-overclock-raspberry-pi-4/
文章有(3)条网友点评
very good
患者性别
hhh