DaveKyurem
2021-02-15T15:14:07+00:00
写在前面:
感谢各位大神的努力付出,还有openwrt社区的贡献者们,创造了一个多姿多彩的Openwrt的世界,让我们体会到了openwrt的魅力
PS:CH H的那个文章也是我写的[s:ac:goodjob]
友善的NANOPI R4S去年就出了,采相较于以前的R2S有了挺大的提升。我个人认为主要的主要是提升点在这里:
1、处理器有了巨大的提升,从Rockchip RK3328 (四核Cortex-A53 1.5GHz)升级到了Rockchip RK3399(Dual-Core Cortex-A72(up to 2.0GHz) + Quad-Core Cortex-A53 up to 1.5GHz)
2、网卡也有了改动,LAN口从R2S上面USB 转接的RTL8153B变成了PCIE转接的RTL8111,不再需要WAN LAN互换才能获得最大的网速
3、USB从一个USB2.0升级到了2个USB3.0
4、供电接口从原来的Micro usb升级到了C口(终于可以抛弃这个该死的供电口了)
现在价格下来了,所以一时心痒痒,就入了一个R4S 4G版本。
我入的是铁壳版本,个人认为软路由这种低功耗设备,就应该被动散热以保持安静。[偷笑]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-bvivK15T3cSsg-jc.jpg.thumb.jpg[/img]
性能测试:
为了有比较,我请来了X86的代表选手3965U和同为ARM阵营的斐讯N1盒子作为R4S的对手进行同台较量
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-3pc0K1yT3cSsg-jc.jpg.medium.jpg[/img]
使用的固件:
R4S:FriendlyElec NanoPi R4S 内核:OpenWrt R21.2.1(2021.02.24)/ LuCl Master(git-21.035.34289-13f96d1)
N1:OpenWrt R21.2.1 2021.02.17 Compilde by gd772 /LuCI Master (git-21.035.34289-13f96d1) 内核:5.4.98-flippy-53+o
3965U:OpenWrt R21.1.18 GDQ v2.1[2021] Compiled by eSir / LuCl Master (git-20.343.54716-6fc079f)。
测试环境:
硬路由拨号上网,测试的软路由全部设置为网关模式,并且关闭所有的网络加速功能。
1、首先是cpumark的对比:
R4S:41657.987919
N1:18324.457424
3965U:31161.142056
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-47llKrT3cSp5-8w.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-gk4uK10T3cSw0-ce.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-8y4rKvT3cSrg-8z.jpg.medium.jpg[/img]
从cpumark可以看出,R4S的CPU跑分已经超越了3965U,提升还是非常的巨大的[s:ac:goodjob]
跑分功耗:
R4S:6.9W(插座)
N1:2.2W
3965U:11.1W
结果可以看出,R4S的能耗比真的不错,还有N1是真的省电啊。
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-65ipK2eT3cSke-u0.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-5gb2K20T3cSsg-jc.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-5t9zK1nT3cSsg-jc.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-4l1mK2jT3cSke-u0.jpg.medium.jpg[/img]
2、待机功耗测试:
R4S:2.69W(插座)
N1:0.22W
3965U:6.24W
待机功耗,R4S表现也是很优秀,但是N1可以说是电表倒着转了
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-4zltK2lT3cSke-u0.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-4vseK26T3cSsg-jc.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-5yxmK1pT3cSsg-jc.jpg.medium.jpg[/img]
3、加密解密性能测试
这次测试我采用aes-256-gcm与chacha20-poly1305这两个常用的加解密协议来进行测试。
3.1、aes-256-gcm跑分测试:
R4S:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-gnlfK13T3cSwf-55.jpg[/img]
N1:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-hnujK1aT3cSsg-4x.jpg[/img]
3965U:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-7gc8K1jT3cSui-5r.jpg[/img]
3.2、chacha20-poly1305跑分测试:
R4S:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-3uk3KvT3cSt2-47.jpg[/img]
N1:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-9x2K1gT3cSu7-4c.jpg[/img]
3965U:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-6008KyT3cSvi-4h.jpg[/img]
从结果可以看出,X86还是那个大爷,加解密运算能力远超ARM阵营,chacha20-poly1305测试中3965U都快超过R4S一倍了[s:ac:心]
测试结束了没?并没有!刚跑完发现GC404大佬有R4S的超频固件!哎,没办法,再测一次吧[s:ac:黑枪]
超频固件主要是R4S处理器频率拉到了2.2G,刷完,再次跑分如下:
cpumark:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-beubK15T3cSt0-dy.jpg[/img]
aes-256-gcm:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-dmhxK1kT3cStn-5h.jpg[/img]
chacha20-poly1305:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-2e49K1cT3cSsg-5i.jpg[/img]
从图中可以看到,超频以后的R4S,CPU性能约有20%的提升,加解密性能有10%左右的提升。
跑分的过程也顺带测试了一下功耗,相较于未超频状态,待机功耗变化不大,跑分的时候功耗升高了约2W。
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-5y3gK2mT3cSke-u0.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-1mhyK2lT3cSke-u0.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-iu39K2lT3cSke-u0.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-fzt8K2dT3cSke-u0.jpg.medium.jpg[/img]
总结:
R4S作为友善的新的产品,标志着ARM软路由也进入了高性能时代,摆脱了以前ARM往往是低性能的状态,让我们知道ARM软路由也能有不俗的实力,特别是在处理器性能这方面,可以说是进步巨大(加解密X86还是老大哥),就是期待R4S能够再降一点价格,就可以挤占掉入门的X86软路由的空间。还有这回测试,发现N1真的是太省电了!性能表现也可圈可点[s:ac:上]
明天还有个S905X3要测,都到快递点了,快递员提早下班没送到[s:ac:愁]
感谢各位大神的努力付出,还有openwrt社区的贡献者们,创造了一个多姿多彩的Openwrt的世界,让我们体会到了openwrt的魅力
PS:CH H的那个文章也是我写的[s:ac:goodjob]
友善的NANOPI R4S去年就出了,采相较于以前的R2S有了挺大的提升。我个人认为主要的主要是提升点在这里:
1、处理器有了巨大的提升,从Rockchip RK3328 (四核Cortex-A53 1.5GHz)升级到了Rockchip RK3399(Dual-Core Cortex-A72(up to 2.0GHz) + Quad-Core Cortex-A53 up to 1.5GHz)
2、网卡也有了改动,LAN口从R2S上面USB 转接的RTL8153B变成了PCIE转接的RTL8111,不再需要WAN LAN互换才能获得最大的网速
3、USB从一个USB2.0升级到了2个USB3.0
4、供电接口从原来的Micro usb升级到了C口(终于可以抛弃这个该死的供电口了)
现在价格下来了,所以一时心痒痒,就入了一个R4S 4G版本。
我入的是铁壳版本,个人认为软路由这种低功耗设备,就应该被动散热以保持安静。[偷笑]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-bvivK15T3cSsg-jc.jpg.thumb.jpg[/img]
性能测试:
为了有比较,我请来了X86的代表选手3965U和同为ARM阵营的斐讯N1盒子作为R4S的对手进行同台较量
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-3pc0K1yT3cSsg-jc.jpg.medium.jpg[/img]
使用的固件:
R4S:FriendlyElec NanoPi R4S 内核:OpenWrt R21.2.1(2021.02.24)/ LuCl Master(git-21.035.34289-13f96d1)
N1:OpenWrt R21.2.1 2021.02.17 Compilde by gd772 /LuCI Master (git-21.035.34289-13f96d1) 内核:5.4.98-flippy-53+o
3965U:OpenWrt R21.1.18 GDQ v2.1[2021] Compiled by eSir / LuCl Master (git-20.343.54716-6fc079f)。
测试环境:
硬路由拨号上网,测试的软路由全部设置为网关模式,并且关闭所有的网络加速功能。
1、首先是cpumark的对比:
R4S:41657.987919
N1:18324.457424
3965U:31161.142056
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-47llKrT3cSp5-8w.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-gk4uK10T3cSw0-ce.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-8y4rKvT3cSrg-8z.jpg.medium.jpg[/img]
从cpumark可以看出,R4S的CPU跑分已经超越了3965U,提升还是非常的巨大的[s:ac:goodjob]
跑分功耗:
R4S:6.9W(插座)
N1:2.2W
3965U:11.1W
结果可以看出,R4S的能耗比真的不错,还有N1是真的省电啊。
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-65ipK2eT3cSke-u0.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-5gb2K20T3cSsg-jc.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-5t9zK1nT3cSsg-jc.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-4l1mK2jT3cSke-u0.jpg.medium.jpg[/img]
2、待机功耗测试:
R4S:2.69W(插座)
N1:0.22W
3965U:6.24W
待机功耗,R4S表现也是很优秀,但是N1可以说是电表倒着转了
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-4zltK2lT3cSke-u0.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-4vseK26T3cSsg-jc.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-5yxmK1pT3cSsg-jc.jpg.medium.jpg[/img]
3、加密解密性能测试
这次测试我采用aes-256-gcm与chacha20-poly1305这两个常用的加解密协议来进行测试。
3.1、aes-256-gcm跑分测试:
R4S:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-gnlfK13T3cSwf-55.jpg[/img]
N1:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-hnujK1aT3cSsg-4x.jpg[/img]
3965U:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-7gc8K1jT3cSui-5r.jpg[/img]
3.2、chacha20-poly1305跑分测试:
R4S:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-3uk3KvT3cSt2-47.jpg[/img]
N1:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-9x2K1gT3cSu7-4c.jpg[/img]
3965U:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-6008KyT3cSvi-4h.jpg[/img]
从结果可以看出,X86还是那个大爷,加解密运算能力远超ARM阵营,chacha20-poly1305测试中3965U都快超过R4S一倍了[s:ac:心]
测试结束了没?并没有!刚跑完发现GC404大佬有R4S的超频固件!哎,没办法,再测一次吧[s:ac:黑枪]
超频固件主要是R4S处理器频率拉到了2.2G,刷完,再次跑分如下:
cpumark:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-beubK15T3cSt0-dy.jpg[/img]
aes-256-gcm:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-dmhxK1kT3cStn-5h.jpg[/img]
chacha20-poly1305:
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-2e49K1cT3cSsg-5i.jpg[/img]
从图中可以看到,超频以后的R4S,CPU性能约有20%的提升,加解密性能有10%左右的提升。
跑分的过程也顺带测试了一下功耗,相较于未超频状态,待机功耗变化不大,跑分的时候功耗升高了约2W。
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-5y3gK2mT3cSke-u0.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-1mhyK2lT3cSke-u0.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-iu39K2lT3cSke-u0.jpg.medium.jpg[/img]
[img]https://img.nga.178.com/attachments/mon_202102/24/c4Q8g2u-fzt8K2dT3cSke-u0.jpg.medium.jpg[/img]
总结:
R4S作为友善的新的产品,标志着ARM软路由也进入了高性能时代,摆脱了以前ARM往往是低性能的状态,让我们知道ARM软路由也能有不俗的实力,特别是在处理器性能这方面,可以说是进步巨大(加解密X86还是老大哥),就是期待R4S能够再降一点价格,就可以挤占掉入门的X86软路由的空间。还有这回测试,发现N1真的是太省电了!性能表现也可圈可点[s:ac:上]
明天还有个S905X3要测,都到快递点了,快递员提早下班没送到[s:ac:愁]