128 Technology (128T) makes routing software that runs on x86 in addition to, eventually, ARM platforms. The application scales linearly with induration assigned, assuming DPDK in a position hardware. A dual- or perhaps quad-core Intel Atom program typically sees ~1Gbps, whilst a 22-core Intel Xeon will see ~100Gbps associated with throughput.
A 128T system forwards at each redirecting node independently, but will be managed centrally via their own Conductor controller. 128T redirecting technology forwards traffic centered on sessions. Each client tracks session state, forwarding packets that are an element of a known session relative to policy defined on typically the Conductor.
128T routers could peer with the other regarding improved forwarding abilities or even with non-128T routers making use of standard routing protocols such as BGP and OSPF. 128T nodes can forward in order to each other, permitting advanced traffic engineered, per-session pathways.
A 128T network generates a dynamic, session-oriented services fabric with a amount of use cases. A single of these use situations is SD-WAN. In a great SD-WAN scenario, paths usually are engineered to forward certain traffic classes over certain links, or over hyperlinks with specific latency, jitter, and loss characteristics within real-time, matching an SLA centrally defined.
The 128T pricing model is unique plus potentially cost-effective, billing with regard to aggregate traffic flowing via the network each 30 days, instead of a static per-device, per-port, or throughput-limited type.
128 Technology “Session Smart” SD-WAN