high-performance layer 4 load balancer (L4LB) framework, supporting features such asXDPandMaglevin a standalone flavor. Asrecentlydescribed by Seznam.cz, such load-balancers typically live at the edge of the datacenter, replacing expensive dedicated hardware load-balancers, and forward traffic into...
4.3.1 复习:veth pair default/bpf-host-routing 模式转发路径 4.3.2meta device转发路径 4.3.3 meta device 好处:延迟更低 4.3.4 meta device vs.veth pair:实现区别 4.3.5 meta device 性能 4.1 Cilium 作为独立网关节点(standalone GW) 4.2 Cilium 作为 k8s 网络方案 4.3 meta device vs. veth pair 5 ...
XDP-based Standalone Load Balancer 主要贡献: Daniel Borkmann (Isovalent), Martynas Pumputis (Isovalent), Chris Tarazi (Isovalent) and Sebastian Wicki (Isovalent) Cilium基于eBPF的负载均衡器最新增加了对[Maglev][28]一致性哈希的支持以及[eXpress数据路径][29](XDP)层的转发平面加速,从而显着提高了鲁棒...
改进后连接/请求/响应类型的工作负载(TCP_CRR)性能几乎提升了一倍。 XDP-based Standalone Load Balancer 主要贡献: Daniel Borkmann (Isovalent), Martynas Pumputis (Isovalent), Chris Tarazi (Isovalent) and Sebastian Wicki (Isovalent) Cilium基于eBPF的负载均衡器最新增加了对[Maglev][28]一致性哈希的支持...
4 Cilium 未来数据平面 4.3.1 复习:veth pair default/bpf-host-routing 模式转发路径 4.3.2 meta device 转发路径 4.3.3 meta device 好处:延迟更低 4.3.4 meta device vs. veth pair:实现区别 4.3.5 meta device 性能 4.1 Cilium 作为独立网关节点(standalone GW) 4.2 Cilium 作为 k8s 网络方案 4.3 meta...
enabled: false # -- Configure service load balancing # loadBalancer: # -- standalone enables the standalone L4LB which does not connect to # kube-apiserver. # standalone: false # -- algorithm is the name of the load balancing algorithm for backend # selection e.g. random or maglev ...
4.3.5 meta device 性能 4.1 Cilium 作为独立网关节点(standalone GW)4.2 Cilium 作为 k8s 网络...