![multipatch multipatch](https://data.glamood.com/imgprodotto/camouflage-multipatch-ski-jacket_623900_big.jpg)
#Multipatch code
#Multipatch mac os x
![multipatch multipatch](https://pro.arcgis.com/en/pro-app/2.6/get-started/GUID-C0F67261-9FDC-4684-BA1D-8513B00393DC-web.png)
In order to facilitate its deployment, Multipath TCP presents the same socket interface as TCP. In addition, SSL decryption will become inefficient by way of the end-to-end encryption protocols.
![multipatch multipatch](https://gis.oneteam.it/wp-content/uploads/2020/03/multipatch.png)
From a network security perspective, multipath routing causes cross-path data fragmentation that results in firewalls and malware scanners becoming inefficient when they only see one path's traffic. Multipath TCP causes a number of new issues. In contrast to Ethernet channel bonding using 802.3ad link aggregation, Multipath TCP can balance a single TCP connection across multiple interfaces and reach very high throughput. Multipath TCP also brings performance benefits in datacenter environments. Handover functionality can then be implemented at the endpoints without requiring special functionality in the subnetworks - in accordance to the Internet's end-to-end principle. The problem of link handover is thus solved by abstraction in the transport layer, without any special mechanisms at the network or link layers. In addition to the gains in throughput from inverse multiplexing, links may be added or dropped as the user moves in or out of coverage without disrupting the end-to-end TCP connection. Multipath TCP is particularly useful in the context of wireless networks using both Wi-Fi and a mobile network is a typical use case. Multipath TCP is backward compatible with standard TCP. The redundancy offered by Multipath TCP enables inverse multiplexing of resources, and thus increases TCP throughput to the sum of all available link-level channels instead of using a single one as required by standard TCP.