dmit,日本Pro VPS测评,100M带宽,CN2 GIA/10099(9929)/CMI线路
目前,DMIT 已上线了 Lite 和 Pro 两个系列,lite套餐是国际线路走NTT+Telstra+HE+EQIX;pro套餐是cn2线路回程CN2 GIA/10099(9929)/CMI,今天这篇文章就来测评日本Pro VPS,感兴趣的小伙伴可以围观。
1、官网
购买注册教程:https://www.daniao.org/10982.html
2、测评机器
特征:基于kvm虚拟,100M带宽,自带 1IPv4 & 1 IPv6 /64,线路 CN2 GIA/10099(9929)/CMI。
终身循环 8 折优惠(非TINY机型季付及以上):TYO-Pro-Open-Beta-Recur-20OFF
终身循环 8 折优惠(仅限Tiny机型年付):TYO-Pro-TINY-Open-Beta-Recur-20OFF
注意,这是推广期优惠码,此外标注红色文字的为今天的测评机器。
测试IP:45.88.193.23
机型 | CPU | 内存 | SSD | 月流量 | 带宽 | 价格 | 购买 |
TINY | 1核 | 0.75G | 15G | 300G | 100M | $19.9/月 | 购买 |
STARTER | 1核 | 1.5G | 20G | 500G | 100M | $32.9/月 | 购买 |
MINI | 2核 | 2G | 40G | 1T | 100M | $69.9/月 | 购买 |
MICRO | 2核 | 4G | 40G | 2T | 100M | $139.9/月 | 购买 |
MEDIUM | 4核 | 4G | 60G | 30T | 100M | $199.9/月 | 购买 |
LARGE | 4核 | 8G | 100G | 5T | 100M | $329.9/月 | 购买 |
GIANT | 8核 | 16GB | 200G | 10T | 100M | $659.9/月 | 购买 |
3、系统信息
CPU:AMD EPYC 7402P 24-Core, 2794.750 MHz,磁盘IO:1092.3 MB/s,这个机器性能相当霸气。
4、杂项测试
1)流媒体信息,情况就是这样了。
2)国内测速,可以看到国内三网速度全部跑满,很赞!
3)国外测速,欧美测试结果看跑的也很不错。
4)磁盘FIO读写,读写速度很猛!!
5、路由测试
电信回程,直连,走cn2 gia线路
Traceroute to China, Guangzhou CT (TCP Mode, Max 30 Hop) ============================================================ traceroute to 113.108.209.1 (113.108.209.1), 30 hops max, 32 byte packets 1 193.41.248.195 0.26 ms AS54574 United States, California, Los Angeles, dmit.io 2 193.41.248.205 0.74 ms AS54574 United States, California, Los Angeles, dmit.io 3 69.194.166.157 0.88 ms AS23764 Japan, Tokyo, ChinaTelecom 4 203.22.182.18 1.45 ms * China, ChinaTelecom 5 59.43.184.177 37.09 ms * China, Shanghai, ChinaTelecom 6 * 7 59.43.138.53 44.41 ms * China, Shanghai, ChinaTelecom 8 202.97.70.229 40.54 ms * China, Shanghai, ChinaTelecom 9 202.97.82.94 59.08 ms AS4134 China, Guangdong, Guangzhou, ChinaTelecom 10 * 11 * 12 * Traceroute to China, Shanghai CT (TCP Mode, Max 30 Hop) ============================================================ traceroute to 180.153.28.5 (180.153.28.5), 30 hops max, 32 byte packets 1 193.41.248.195 0.33 ms AS54574 United States, California, Los Angeles, dmit.io 2 193.41.248.205 0.85 ms AS54574 United States, California, Los Angeles, dmit.io 3 69.194.165.213 0.96 ms AS23764 Japan, Tokyo, ChinaTelecom 4 203.22.182.18 1.50 ms * China, ChinaTelecom 5 59.43.184.177 37.03 ms * China, Shanghai, ChinaTelecom 6 * 7 59.43.138.49 42.66 ms * China, Shanghai, ChinaTelecom 8 101.95.88.214 36.39 ms AS4812 China, Shanghai, ChinaTelecom 9 124.74.166.18 39.28 ms AS4812 China, Shanghai, ChinaTelecom 10 124.74.232.242 42.31 ms AS4811 China, Shanghai, ChinaTelecom 11 101.227.255.34 80.34 ms AS4812 China, Shanghai, ChinaTelecom 12 180.153.28.5 36.38 ms AS4812 China, Shanghai, ChinaTelecom Traceroute to China, Beijing CT (TCP Mode, Max 30 Hop) ============================================================ traceroute to 180.149.128.9 (180.149.128.9), 30 hops max, 32 byte packets 1 193.41.248.195 0.30 ms AS54574 United States, California, Los Angeles, dmit.io 2 193.41.248.205 0.82 ms AS54574 United States, California, Los Angeles, dmit.io 3 69.194.165.205 0.88 ms AS23764 China, Hong Kong, ChinaTelecom 4 203.22.182.18 1.63 ms * China, ChinaTelecom 5 59.43.247.114 34.95 ms * China, Shanghai, ChinaTelecom 6 59.43.182.225 61.74 ms * China, Beijing, ChinaTelecom 7 * 8 59.43.132.17 64.64 ms * China, Beijing, ChinaTelecom 9 * 10 36.110.244.46 61.52 ms AS23724 China, Beijing, ChinaTelecom 11 36.110.246.198 90.38 ms AS23724 China, Beijing, ChinaTelecom 12 * 13 *
电信去程,直连,走cn2 gia
联通回程,目前的回程走cn2 gia+AS4837
Traceroute to China, Guangzhou CU (TCP Mode, Max 30 Hop) ============================================================ traceroute to 210.21.4.130 (210.21.4.130), 30 hops max, 32 byte packets 1 193.41.248.195 0.37 ms AS54574 United States, California, Los Angeles, dmit.io 2 193.41.248.205 0.83 ms AS54574 United States, California, Los Angeles, dmit.io 3 69.194.165.213 0.92 ms AS23764 Japan, Tokyo, ChinaTelecom 4 203.22.182.18 1.46 ms * China, ChinaTelecom 5 59.43.247.114 34.96 ms * China, Shanghai, ChinaTelecom 6 59.43.187.61 35.15 ms * China, Shanghai, ChinaTelecom 7 59.43.138.45 40.57 ms * China, Shanghai, ChinaTelecom 8 59.43.141.145 57.99 ms * China, Guangdong, Guangzhou, ChinaTelecom 9 219.158.40.169 61.54 ms AS4837 China, Guangdong, Guangzhou, ChinaUnicom 10 219.158.10.249 61.65 ms AS4837 China, Guangdong, Guangzhou, ChinaUnicom 11 112.96.0.2 63.68 ms AS17816 China, Guangdong, Guangzhou, ChinaUnicom 12 120.80.91.66 59.08 ms AS17816 China, Guangdong, ChinaUnicom 13 * 14 * 15 * Traceroute to China, Shanghai CU (TCP Mode, Max 30 Hop) ============================================================ traceroute to 58.247.8.158 (58.247.8.158), 30 hops max, 32 byte packets 1 193.41.248.195 0.64 ms AS54574 United States, California, Los Angeles, dmit.io 2 193.41.248.205 0.86 ms AS54574 United States, California, Los Angeles, dmit.io 3 69.194.165.213 0.94 ms AS23764 Japan, Tokyo, ChinaTelecom 4 203.22.182.18 1.36 ms * China, ChinaTelecom 5 59.43.184.177 36.99 ms * China, Shanghai, ChinaTelecom 6 * 7 59.43.130.213 37.47 ms * China, Shanghai, ChinaTelecom 8 219.158.38.241 38.59 ms AS4837 China, Shanghai, ChinaUnicom 9 219.158.9.97 35.70 ms AS4837 China, Shanghai, ChinaUnicom 10 * 11 58.247.221.178 39.15 ms AS17621 China, Shanghai, ChinaUnicom 12 139.226.225.22 33.72 ms AS17621 China, Shanghai, ChinaUnicom 13 58.247.8.153 44.39 ms AS17621 China, Shanghai, ChinaUnicom 14 * 15 * 16 * 17 * 18 * 19 * 20 * 21 * 22 * 23 * 24 * 25 * 26 * 27 * 28 * 29 * 30 * Traceroute to China, Beijing CU (TCP Mode, Max 30 Hop) ============================================================ traceroute to 123.125.99.1 (123.125.99.1), 30 hops max, 32 byte packets 1 193.41.248.195 0.32 ms AS54574 United States, California, Los Angeles, dmit.io 2 193.41.248.205 0.88 ms AS54574 United States, California, Los Angeles, dmit.io 3 69.194.165.205 0.96 ms AS23764 China, Hong Kong, ChinaTelecom 4 203.22.182.18 1.38 ms * China, ChinaTelecom 5 59.43.184.177 37.08 ms * China, Shanghai, ChinaTelecom 6 * 7 59.43.138.69 44.74 ms * China, Shanghai, ChinaTelecom 8 59.43.80.106 43.42 ms * China, Shanghai, ChinaTelecom 9 * 10 202.97.91.93 60.74 ms AS4134 China, Beijing, ChinaTelecom 11 219.158.44.109 63.83 ms AS4837 China, Beijing, ChinaUnicom 12 * 13 * 14 219.232.11.162 61.23 ms AS4808 China, Beijing, ChinaUnicom 15 124.65.194.134 62.49 ms AS4808 China, Beijing, ChinaUnicom 16 61.135.113.154 58.56 ms AS4808 China, Beijing, ChinaUnicom 17 * 18 123.125.99.1 63.61 ms AS4808 China, Beijing, ChinaUnicom
联通去程,去程依然是走cn2 gia+AS4837
移动回程,目前依然是走的cn2+AS9808(移动骨干线路)
Traceroute to China, Guangzhou CM (TCP Mode, Max 30 Hop) ============================================================ traceroute to 120.196.212.25 (120.196.212.25), 30 hops max, 32 byte packets 1 193.41.248.195 1.55 ms AS54574 United States, California, Los Angeles, dmit.io 2 193.41.248.205 0.80 ms AS54574 United States, California, Los Angeles, dmit.io 3 69.194.165.213 0.93 ms AS23764 Japan, Tokyo, ChinaTelecom 4 203.22.182.18 1.51 ms * China, ChinaTelecom 5 59.43.184.181 37.06 ms * China, Shanghai, ChinaTelecom 6 * 7 59.43.130.205 41.99 ms * China, Shanghai, ChinaTelecom 8 59.43.80.110 37.91 ms * China, Shanghai, ChinaTelecom 9 202.97.19.178 61.55 ms AS4134 China, Guangdong, Shenzhen, ChinaTelecom 10 202.97.18.229 65.41 ms AS4134 China, Guangdong, Guangzhou, ChinaTelecom 11 221.183.90.205 117.67 ms AS9808 China, Guangdong, Guangzhou, ChinaMobile 12 221.183.90.217 84.51 ms AS9808 China, Guangdong, Guangzhou, ChinaMobile 13 * 14 211.136.204.101 63.28 ms AS56040 China, Guangdong, Guangzhou, ChinaMobile 15 211.136.203.10 63.89 ms AS56040 China, Guangdong, Guangzhou, ChinaMobile 16 * 17 120.196.212.25 113.52 ms AS56040 China, Guangdong, Guangzhou, ChinaMobile Traceroute to China, Shanghai CM (TCP Mode, Max 30 Hop) ============================================================ traceroute to 221.183.55.22 (221.183.55.22), 30 hops max, 32 byte packets 1 193.41.248.195 0.33 ms AS54574 United States, California, Los Angeles, dmit.io 2 193.41.248.205 0.80 ms AS54574 United States, California, Los Angeles, dmit.io 3 69.194.165.205 0.88 ms AS23764 China, Hong Kong, ChinaTelecom 4 203.22.182.18 2.01 ms * China, ChinaTelecom 5 59.43.184.181 37.07 ms * China, Shanghai, ChinaTelecom 6 59.43.246.213 38.92 ms * China, Shanghai, ChinaTelecom 7 * 8 59.43.80.106 42.41 ms * China, Shanghai, ChinaTelecom 9 202.97.46.54 42.32 ms AS4134 China, Shanghai, ChinaTelecom 10 * 11 221.183.90.249 61.16 ms AS9808 China, Shanghai, ChinaMobile 12 * 13 221.176.22.10 35.18 ms AS9808 China, Shanghai, ChinaMobile 14 * 15 * 16 * 17 * Traceroute to China, Beijing CM (TCP Mode, Max 30 Hop) ============================================================ traceroute to 211.136.25.153 (211.136.25.153), 30 hops max, 32 byte packets 1 193.41.248.195 0.32 ms AS54574 United States, California, Los Angeles, dmit.io 2 193.41.248.205 0.78 ms AS54574 United States, California, Los Angeles, dmit.io 3 69.194.165.213 0.92 ms AS23764 Japan, Tokyo, ChinaTelecom 4 203.22.182.18 1.46 ms * China, ChinaTelecom 5 59.43.184.181 37.06 ms * China, Shanghai, ChinaTelecom 6 59.43.186.245 38.29 ms * China, Shanghai, ChinaTelecom 7 59.43.138.69 39.17 ms * China, Shanghai, ChinaTelecom 8 59.43.80.106 46.15 ms * China, Shanghai, ChinaTelecom 9 * 10 202.97.88.234 60.96 ms AS4134 China, Beijing, ChinaTelecom 11 221.183.65.225 98.40 ms AS9808 China, Beijing, ChinaMobile 12 * 13 * 14 211.136.66.229 76.86 ms AS56048 China, Beijing, ChinaMobile 15 211.136.67.166 77.86 ms AS56048 China, Beijing, ChinaMobile 16 211.136.95.226 79.07 ms http: 403 http: 403 17 * 18 * 19 * 20 211.136.25.153 78.02 ms http: 403 http: 403
移动去程,走移动cmi
6、ping值
数据提供:ping.chinaz.com 这个ping值也能看出线路非常的赞。
7、路由掉包
掉包情况良好,国内国际线路访问都很优秀。结果非晚高峰测试,晚高峰继续补一张图。
8、UNIX Benchmarks
单核得分:1970.6,很强悍啊,单核堪比Intel的双核。
9、最后
1)线路总结,具体线路看第二条的备注
电信:双程cn2 gia
联通:回程cn2 gia ,去程cn2 gia+AS4837
移动:回程cn2,去程cmi
2)关于去程线路的说明
三网 JPN > CHN 方向将主要使用 CTGnet。
去程将视情况优化,CTGnet去程并非最优,丢包率和延迟均不是最优。特别是对于移动用户以及联通用户。
CMI去程将使我们与移动用户直接通过 SHA - TYO 直接连接。
DMIT与10099 通过10G端口连接,拥有更大的出口速率,并且CTGnet 与 4837 互联有限,时常拥堵。
注:
1. CTGnet ~= CN2. 不同的是 CTGnet 有 GT / GIA 和 中国流量百分比。
2. CTGnet 100% GIA 的 Layer 3 几乎完全等于 CN2。DMIT 在日本订购的本产品。
3. CTGnet 使用自己的海底光缆与中国境内CN2 的PoP 连接。CN2的光缆故障很多时候是手动调度,CTGnet 由 CTG 维护,拥有更快的错误响应。
4. CMI SHA-TYO 虽然是Layer 3 直接连接,但是Layer 1 层,CMI使用的 NCP 海底光缆仍然需要经过韩国。
5. CMI 与 10099 仍未开通,由于交付延期过长,DMIT不愿继续负担CTGnet空转导致的浪费,故先将Pro 提供OpenBeta 销售。
6. OpenBeta 期间会有很多调试,无法保障SLA,我们将尽可能降低各类维护的时长,以及避开东亚所有时区的高峰时段。
共有 0 条评论